https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_5f3433a8f404c67d117aa5aa&retmode=json
Resource id #559 -- array(2) {
["header"]=>
array(2) {
["type"]=>
string(8) "esummary"
["version"]=>
string(3) "0.3"
}
["result"]=>
array(146) {
["uids"]=>
array(145) {
[0]=>
string(8) "32765523"
[1]=>
string(8) "32730229"
[2]=>
string(8) "32637980"
[3]=>
string(8) "32559180"
[4]=>
string(8) "32511571"
[5]=>
string(8) "32425810"
[6]=>
string(8) "32394461"
[7]=>
string(8) "32385922"
[8]=>
string(8) "32385854"
[9]=>
string(8) "32369193"
[10]=>
string(8) "32339326"
[11]=>
string(8) "32289162"
[12]=>
string(8) "32266378"
[13]=>
string(8) "32241843"
[14]=>
string(8) "31961822"
[15]=>
string(8) "31930726"
[16]=>
string(8) "31748349"
[17]=>
string(8) "31699790"
[18]=>
string(8) "31350307"
[19]=>
string(8) "31207887"
[20]=>
string(8) "31184577"
[21]=>
string(8) "31119659"
[22]=>
string(8) "31002399"
[23]=>
string(8) "30865302"
[24]=>
string(8) "30681727"
[25]=>
string(8) "30353560"
[26]=>
string(8) "30312994"
[27]=>
string(8) "30278801"
[28]=>
string(8) "30239377"
[29]=>
string(8) "29550761"
[30]=>
string(8) "29464723"
[31]=>
string(8) "29395164"
[32]=>
string(8) "29307717"
[33]=>
string(8) "29243830"
[34]=>
string(8) "29163500"
[35]=>
string(8) "29163471"
[36]=>
string(8) "29079593"
[37]=>
string(8) "28921569"
[38]=>
string(8) "28679954"
[39]=>
string(8) "28630094"
[40]=>
string(8) "28263174"
[41]=>
string(8) "28263165"
[42]=>
string(8) "28250159"
[43]=>
string(8) "27913515"
[44]=>
string(8) "27662015"
[45]=>
string(8) "27632931"
[46]=>
string(8) "27582209"
[47]=>
string(8) "27514704"
[48]=>
string(8) "27507802"
[49]=>
string(8) "27345021"
[50]=>
string(8) "27185856"
[51]=>
string(8) "27158944"
[52]=>
string(8) "26954453"
[53]=>
string(8) "26921359"
[54]=>
string(8) "26843479"
[55]=>
string(8) "26405215"
[56]=>
string(8) "26400622"
[57]=>
string(8) "26260861"
[58]=>
string(8) "26188060"
[59]=>
string(8) "26185172"
[60]=>
string(8) "26174903"
[61]=>
string(8) "26074173"
[62]=>
string(8) "26053689"
[63]=>
string(8) "25670928"
[64]=>
string(8) "25651844"
[65]=>
string(8) "25621658"
[66]=>
string(8) "25409031"
[67]=>
string(8) "25342661"
[68]=>
string(8) "25122924"
[69]=>
string(8) "25041478"
[70]=>
string(8) "24636780"
[71]=>
string(8) "24319246"
[72]=>
string(8) "24108700"
[73]=>
string(8) "24090731"
[74]=>
string(8) "23878139"
[75]=>
string(8) "23815264"
[76]=>
string(8) "23801629"
[77]=>
string(8) "23721226"
[78]=>
string(8) "23721209"
[79]=>
string(8) "23621760"
[80]=>
string(8) "23441757"
[81]=>
string(8) "23411733"
[82]=>
string(8) "23384196"
[83]=>
string(8) "23118779"
[84]=>
string(8) "23033973"
[85]=>
string(8) "22738400"
[86]=>
string(8) "22733018"
[87]=>
string(8) "22682308"
[88]=>
string(8) "22679338"
[89]=>
string(8) "22502635"
[90]=>
string(8) "22494154"
[91]=>
string(8) "22321003"
[92]=>
string(8) "22300526"
[93]=>
string(8) "22077064"
[94]=>
string(8) "22021369"
[95]=>
string(8) "21981241"
[96]=>
string(8) "21884408"
[97]=>
string(8) "21790627"
[98]=>
string(8) "21645005"
[99]=>
string(8) "21569043"
[100]=>
string(8) "21269695"
[101]=>
string(8) "21251006"
[102]=>
string(8) "20546207"
[103]=>
string(8) "20513564"
[104]=>
string(8) "20345515"
[105]=>
string(8) "20299509"
[106]=>
string(8) "20086249"
[107]=>
string(8) "19906034"
[108]=>
string(8) "19735500"
[109]=>
string(8) "19726874"
[110]=>
string(8) "19573176"
[111]=>
string(8) "19539874"
[112]=>
string(8) "19525479"
[113]=>
string(8) "19413728"
[114]=>
string(8) "19309468"
[115]=>
string(8) "19170996"
[116]=>
string(8) "19056031"
[117]=>
string(8) "18832936"
[118]=>
string(8) "18832931"
[119]=>
string(8) "18830382"
[120]=>
string(8) "18572096"
[121]=>
string(8) "18564394"
[122]=>
string(8) "18483395"
[123]=>
string(8) "18466159"
[124]=>
string(8) "17960129"
[125]=>
string(8) "17764514"
[126]=>
string(8) "17591943"
[127]=>
string(8) "17569819"
[128]=>
string(8) "17286988"
[129]=>
string(8) "17258125"
[130]=>
string(8) "17174218"
[131]=>
string(8) "16965580"
[132]=>
string(8) "16707366"
[133]=>
string(8) "16421482"
[134]=>
string(8) "16123213"
[135]=>
string(8) "15913791"
[136]=>
string(8) "15831698"
[137]=>
string(8) "15591947"
[138]=>
string(8) "15504157"
[139]=>
string(8) "15181291"
[140]=>
string(8) "15163753"
[141]=>
string(8) "14565937"
[142]=>
string(8) "10466820"
[143]=>
string(8) "10459548"
[144]=>
string(7) "9420276"
}
[32765523]=>
array(43) {
["uid"]=>
string(8) "32765523"
["pubdate"]=>
string(4) "2020"
["epubdate"]=>
string(11) "2020 Jul 16"
["source"]=>
string(13) "Front Immunol"
["authors"]=>
array(17) {
[0]=>
array(3) {
["name"]=>
string(8) "Shinde P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Stegmann TC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Hay AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Waterman HR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Szittner Z"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(12) "Bentlage AEH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(24) "Lissenberg-Thunnissen SN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Dekkers G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(14) "Schasfoort RBM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(12) "Ratcliffe SJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Smolkin ME"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(11) "Vidarsson G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(17) "van der Schoot CE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(108) "IgG Subclass Determines Suppression Versus Enhancement of Humoral Alloimmunity to Kell RBC Antigens in Mice."
["sorttitle"]=>
string(107) "igg subclass determines suppression versus enhancement of humoral alloimmunity to kell rbc antigens in mice"
["volume"]=>
string(2) "11"
["issue"]=>
string(0) ""
["pages"]=>
string(4) "1516"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101560960"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1664-3224"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32765523"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.3389/fimmu.2020.01516"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7378678"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32765523"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32765523"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7378678;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/04/28 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/06/09 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/08/09 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/08/09 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/08/09 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(23) "Frontiers in immunology"
["elocationid"]=>
string(29) "doi: 10.3389/fimmu.2020.01516"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/07/16 00:00"
["sortfirstauthor"]=>
string(8) "Shinde P"
["vernaculartitle"]=>
string(0) ""
}
[32730229]=>
array(43) {
["uid"]=>
string(8) "32730229"
["pubdate"]=>
string(11) "2020 Jul 30"
["epubdate"]=>
string(11) "2020 Jul 30"
["source"]=>
string(13) "J Clin Invest"
["authors"]=>
array(18) {
[0]=>
array(3) {
["name"]=>
string(9) "Cleary SJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Kwaan N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Tian JJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Calabrese DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Mallavia B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Magnen M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(12) "Greenland JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Urisman A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Singer JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(7) "Hays SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Kukreja J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(6) "Hay AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(5) "Toy P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(9) "Lowell CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(10) "Morrell CN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(9) "Looney MR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Looney MR"
["title"]=>
string(83) "Complement activation on endothelium initiates antibody-mediated acute lung injury."
["sorttitle"]=>
string(82) "complement activation on endothelium initiates antibody mediated acute lung injury"
["volume"]=>
string(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7802877"
["issn"]=>
string(9) "0021-9738"
["essn"]=>
string(9) "1558-8238"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32730229"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(6) "138136"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1172/JCI138136"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32730229"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32730229"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/07/31 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/07/31 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/07/31 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(37) "The Journal of clinical investigation"
["elocationid"]=>
string(35) "pii: 138136. doi: 10.1172/JCI138136"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/07/30 00:00"
["sortfirstauthor"]=>
string(9) "Cleary SJ"
["vernaculartitle"]=>
string(0) ""
}
[32637980]=>
array(43) {
["uid"]=>
string(8) "32637980"
["pubdate"]=>
string(11) "2020 Jun 30"
["epubdate"]=>
string(11) "2020 Jun 30"
["source"]=>
string(7) "medRxiv"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(16) "Dzieciatkowska M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Issaian A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Hill RC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Buehler PW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(111) "Evidence for structural protein damage and membrane lipid remodeling in red blood cells from COVID-19 patients."
["sorttitle"]=>
string(110) "evidence for structural protein damage and membrane lipid remodeling in red blood cells from covid 19 patients"
["volume"]=>
string(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101767986"
["issn"]=>
string(0) ""
["essn"]=>
string(0) ""
["pubtype"]=>
array(0) {
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32637980"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1101/2020.06.29.20142703"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7340206"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32637980"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32637980"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7340206;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/07/09 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/07/09 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/07/09 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(49) "medRxiv : the preprint server for health sciences"
["elocationid"]=>
string(58) "pii: 2020.06.29.20142703. doi: 10.1101/2020.06.29.20142703"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/06/30 00:00"
["sortfirstauthor"]=>
string(8) "Thomas T"
["vernaculartitle"]=>
string(0) ""
}
[32559180]=>
array(43) {
["uid"]=>
string(8) "32559180"
["pubdate"]=>
string(11) "2020 Jul 23"
["epubdate"]=>
string(11) "2020 Jul 23"
["source"]=>
string(11) "JCI Insight"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Bertolone L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(110) "COVID-19 infection alters kynurenine and fatty acid metabolism, correlating with IL-6 levels and renal status."
["sorttitle"]=>
string(108) "covid 19 infection alters kynurenine and fatty acid metabolism correlating with il 6 levels and renal status"
["volume"]=>
string(1) "5"
["issue"]=>
string(2) "14"
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101676073"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "2379-3708"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32559180"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(6) "140327"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1172/jci.insight.140327"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32559180"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32559180"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/05/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/06/17 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/06/20 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/07/31 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/06/20 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "JCI insight"
["elocationid"]=>
string(44) "pii: 140327. doi: 10.1172/jci.insight.140327"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/07/23 00:00"
["sortfirstauthor"]=>
string(8) "Thomas T"
["vernaculartitle"]=>
string(0) ""
}
[32511571]=>
array(43) {
["uid"]=>
string(8) "32511571"
["pubdate"]=>
string(11) "2020 May 16"
["epubdate"]=>
string(11) "2020 May 16"
["source"]=>
string(7) "medRxiv"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Bertolone L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(143) "COVID-19 infection results in alterations of the kynurenine pathway and fatty acid metabolism that correlate with IL-6 levels and renal status."
["sorttitle"]=>
string(142) "covid 19 infection results in alterations of the kynurenine pathway and fatty acid metabolism that correlate with il 6 levels and renal status"
["volume"]=>
string(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101767986"
["issn"]=>
string(0) ""
["essn"]=>
string(0) ""
["pubtype"]=>
array(0) {
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32511571"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1101/2020.05.14.20102491"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7274252"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32511571"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32511571"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7274252;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/06/09 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/06/09 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/06/09 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(49) "medRxiv : the preprint server for health sciences"
["elocationid"]=>
string(58) "pii: 2020.05.14.20102491. doi: 10.1101/2020.05.14.20102491"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/05/16 00:00"
["sortfirstauthor"]=>
string(8) "Thomas T"
["vernaculartitle"]=>
string(0) ""
}
[32425810]=>
array(43) {
["uid"]=>
string(8) "32425810"
["pubdate"]=>
string(4) "2020"
["epubdate"]=>
string(11) "2020 Apr 30"
["source"]=>
string(13) "Front Physiol"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(8) "Catala A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Youssef LA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(16) "Dzieciatkowska M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Powers NE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Marchetti C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Karafin M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(95) "Metabolic Reprogramming of Mouse Bone Marrow Derived Macrophages Following Erythrophagocytosis."
["sorttitle"]=>
string(94) "metabolic reprogramming of mouse bone marrow derived macrophages following erythrophagocytosis"
["volume"]=>
string(2) "11"
["issue"]=>
string(0) ""
["pages"]=>
string(3) "396"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101549006"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1664-042X"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32425810"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.3389/fphys.2020.00396"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7204509"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32425810"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32425810"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7204509;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/02/26 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/04/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/20 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/20 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/20 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(23) "Frontiers in physiology"
["elocationid"]=>
string(29) "doi: 10.3389/fphys.2020.00396"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/04/30 00:00"
["sortfirstauthor"]=>
string(8) "Catala A"
["vernaculartitle"]=>
string(0) ""
}
[32394461]=>
array(43) {
["uid"]=>
string(8) "32394461"
["pubdate"]=>
string(8) "2020 Jun"
["epubdate"]=>
string(11) "2020 May 11"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Page GP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(65) "Recipient Epidemiology and Donor Evaluation Study-III (REDS III)."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Busch M"
["title"]=>
string(55) "Stored RBC metabolism as a function of caffeine levels."
["sorttitle"]=>
string(54) "stored rbc metabolism as a function of caffeine levels"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "6"
["pages"]=>
string(9) "1197-1211"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32394461"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15813"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32394461"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32394461"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/03/04 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/11 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/13 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/13 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15813"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/06/01 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[32385922]=>
array(43) {
["uid"]=>
string(8) "32385922"
["pubdate"]=>
string(8) "2020 Jun"
["epubdate"]=>
string(10) "2020 May 8"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(65) "Recipient Epidemiology and Donor Evaluation Study-III (REDS III)."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Busch M"
["title"]=>
string(179) "Ethyl glucuronide, a marker of alcohol consumption, correlates with metabolic markers of oxidant stress but not with hemolysis in stored red blood cells from healthy blood donors."
["sorttitle"]=>
string(176) "ethyl glucuronide a marker of alcohol consumption correlates with metabolic markers of oxidant stress but not with hemolysis in stored red blood cells from healthy blood donors"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "6"
["pages"]=>
string(9) "1183-1196"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32385922"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15811"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32385922"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32385922"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/03/03 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/05 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/10 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/10 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/10 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15811"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/06/01 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[32385854]=>
array(43) {
["uid"]=>
string(8) "32385854"
["pubdate"]=>
string(8) "2020 Jun"
["epubdate"]=>
string(10) "2020 May 8"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Page GP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Dumont L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(11) "Roubinian N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(65) "Recipient Epidemiology and Donor Evaluation Study-III (REDS III)."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(110) "Nicotine exposure increases markers of oxidant stress in stored red blood cells from healthy donor volunteers."
["sorttitle"]=>
string(109) "nicotine exposure increases markers of oxidant stress in stored red blood cells from healthy donor volunteers"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "6"
["pages"]=>
string(9) "1160-1174"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32385854"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15812"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32385854"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32385854"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/10 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/02/19 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/02/19 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/10 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/10 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/10 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15812"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/06/01 00:00"
["sortfirstauthor"]=>
string(11) "Stefanoni D"
["vernaculartitle"]=>
string(0) ""
}
[32369193]=>
array(43) {
["uid"]=>
string(8) "32369193"
["pubdate"]=>
string(8) "2020 May"
["epubdate"]=>
string(10) "2020 May 5"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Collins B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Delaney M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(5) "Er LS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(104) "Characterization and refinement of monoclonal anti-human globulins that lack reactivity with human IgG4."
["sorttitle"]=>
string(103) "characterization and refinement of monoclonal anti human globulins that lack reactivity with human igg4"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "5"
["pages"]=>
string(9) "1060-1068"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32369193"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15796"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32369193"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32369193"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/02/10 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/02/18 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/06 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/05/06 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/06 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/05/06 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15796"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/05/01 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[32339326]=>
array(43) {
["uid"]=>
string(8) "32339326"
["pubdate"]=>
string(8) "2020 Jun"
["epubdate"]=>
string(11) "2020 Apr 27"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(11) "Bertolone L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Roy MK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Hay AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Morrison EJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Dumont LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Busch MP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(82) "Impact of taurine on red blood cell metabolism and implications for blood storage."
["sorttitle"]=>
string(81) "impact of taurine on red blood cell metabolism and implications for blood storage"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "6"
["pages"]=>
string(9) "1212-1226"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32339326"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15810"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32339326"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32339326"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/14 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2020/02/18 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/02/22 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/04/28 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/04/28 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/04/28 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15810"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/06/01 00:00"
["sortfirstauthor"]=>
string(11) "Bertolone L"
["vernaculartitle"]=>
string(0) ""
}
[32289162]=>
array(43) {
["uid"]=>
string(8) "32289162"
["pubdate"]=>
string(11) "2020 Apr 14"
["epubdate"]=>
string(0) ""
["source"]=>
string(9) "Blood Adv"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(9) "Gruber DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Richards AL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Hay AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Hudson KE"
["title"]=>
string(92) "Passively transferred IgG enhances humoral immunity to a red blood cell alloantigen in mice."
["sorttitle"]=>
string(91) "passively transferred igg enhances humoral immunity to a red blood cell alloantigen in mice"
["volume"]=>
string(1) "4"
["issue"]=>
string(1) "7"
["pages"]=>
string(9) "1526-1537"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101698425"
["issn"]=>
string(9) "2473-9529"
["essn"]=>
string(9) "2473-9537"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32289162"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(6) "454377"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1182/bloodadvances.2019001299"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7160277"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32289162"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32289162"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7160277;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/12/02 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/10 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/04/15 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/04/15 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/04/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(14) "Blood advances"
["elocationid"]=>
string(37) "doi: 10.1182/bloodadvances.2019001299"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/04/14 00:00"
["sortfirstauthor"]=>
string(9) "Gruber DR"
["vernaculartitle"]=>
string(0) ""
}
[32266378]=>
array(43) {
["uid"]=>
string(8) "32266378"
["pubdate"]=>
string(11) "2020 May 28"
["epubdate"]=>
string(0) ""
["source"]=>
string(5) "Blood"
["authors"]=>
array(13) {
[0]=>
array(3) {
["name"]=>
string(18) "Escamilla-Rivera V"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Liu J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Gibb DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(18) "Santhanakrishnan M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(5) "Liu D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Forsmo JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(13) "Eisenbarth SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Foxman EF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Luckey CJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(105) "Poly(I:C) causes failure of immunoprophylaxis to red blood cells expressing the KEL glycoprotein in mice."
["sorttitle"]=>
string(103) "poly i c causes failure of immunoprophylaxis to red blood cells expressing the kel glycoprotein in mice"
["volume"]=>
string(3) "135"
["issue"]=>
string(2) "22"
["pages"]=>
string(9) "1983-1993"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32266378"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(6) "454294"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.1182/blood.2020005018"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7256361"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32266378"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32266378"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(44) "pmc-id: PMC7256361;embargo-date: 2021/05/28;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/21 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/17 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(11) "pmc-release"
["date"]=>
string(16) "2021/05/28 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/04/09 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/04/09 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/04/09 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(29) "doi: 10.1182/blood.2020005018"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/05/28 00:00"
["sortfirstauthor"]=>
string(18) "Escamilla-Rivera V"
["vernaculartitle"]=>
string(0) ""
}
[32241843]=>
array(43) {
["uid"]=>
string(8) "32241843"
["pubdate"]=>
string(10) "2020 Apr 2"
["epubdate"]=>
string(10) "2020 Apr 2"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Culp-Hill R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(5) "Guo Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Gladwin MT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Page G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Lanteri M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Busch MP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(65) "Recipient Epidemiology and Donor Evaluation Study-III (REDS III)."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(175) "Donor sex, age and ethnicity impact stored red blood cell antioxidant metabolism through mechanisms in part explained by glucose 6-phosphate dehydrogenase levels and activity."
["sorttitle"]=>
string(173) "donor sex age and ethnicity impact stored red blood cell antioxidant metabolism through mechanisms in part explained by glucose 6 phosphate dehydrogenase levels and activity"
["volume"]=>
string(0) ""
["issue"]=>
string(0) ""
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(33) "PubMed - as supplied by publisher"
["pubstatus"]=>
string(2) "10"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "32241843"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2020.246603"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2020.246603"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32241843"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "32241843"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2020/01/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/03/27 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/04/04 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/04/04 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/04/04 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(60) "pii: haematol.2020.246603. doi: 10.3324/haematol.2020.246603"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/04/02 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[31961822]=>
array(43) {
["uid"]=>
string(8) "31961822"
["pubdate"]=>
string(10) "2020 May 1"
["epubdate"]=>
string(0) ""
["source"]=>
string(13) "J Clin Invest"
["authors"]=>
array(21) {
[0]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(13) "Eisenberger A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Soffing M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(5) "Yeh R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Coronel E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Sheikh A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Rapido F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(11) "La Carpia F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(8) "Gehrke S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(10) "Schwartz J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(7) "Divgi C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(9) "Kessler D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(7) "Shaz BH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(10) "Ginzburg Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(6) "Hod EA"
["title"]=>
string(91) "Donor glucose-6-phosphate dehydrogenase deficiency decreases blood quality for transfusion."
["sorttitle"]=>
string(90) "donor glucose 6 phosphate dehydrogenase deficiency decreases blood quality for transfusion"
["volume"]=>
string(3) "130"
["issue"]=>
string(1) "5"
["pages"]=>
string(9) "2270-2285"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7802877"
["issn"]=>
string(9) "0021-9738"
["essn"]=>
string(9) "1558-8238"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31961822"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(6) "133530"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1172/JCI133530"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7191001"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31961822"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31961822"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7191001;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/09/16 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2020/01/14 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/01/22 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/01/22 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/01/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(37) "The Journal of clinical investigation"
["elocationid"]=>
string(22) "doi: 10.1172/JCI133530"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/05/01 00:00"
["sortfirstauthor"]=>
string(10) "Francis RO"
["vernaculartitle"]=>
string(0) ""
}
[31930726]=>
array(43) {
["uid"]=>
string(8) "31930726"
["pubdate"]=>
string(8) "2020 Apr"
["epubdate"]=>
string(11) "2020 Jan 13"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(6) "Cen SY"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Holton MB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Binnington B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Denomme GA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Branch DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Branch DR"
["title"]=>
string(92) "IgG3 anti-Kell allotypic variation results in differential antigen binding and phagocytosis."
["sorttitle"]=>
string(91) "igg3 anti kell allotypic variation results in differential antigen binding and phagocytosis"
["volume"]=>
string(2) "60"
["issue"]=>
string(1) "4"
["pages"]=>
string(7) "688-693"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31930726"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15663"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31930726"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31930726"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/08/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2019/12/09 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/12/23 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2020/01/14 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/01/14 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2020/01/14 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15663"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/04/01 00:00"
["sortfirstauthor"]=>
string(6) "Cen SY"
["vernaculartitle"]=>
string(0) ""
}
[31748349]=>
array(43) {
["uid"]=>
string(8) "31748349"
["pubdate"]=>
string(11) "2019 Dec 15"
["epubdate"]=>
string(11) "2019 Nov 20"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(10) "Temming AR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "de Taeye SW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "de Graaf EL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "de Neef LA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Dekkers G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Bruggeman CW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Koers J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Ligthart P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(13) "Nagelkerke SQ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(11) "Kuijpers TW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Wuhrer M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(9) "Rispens T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(11) "Vidarsson G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Vidarsson G"
["title"]=>
string(138) "Functional Attributes of Antibodies, Effector Cells, and Target Cells Affecting NK Cell-Mediated Antibody-Dependent Cellular Cytotoxicity."
["sorttitle"]=>
string(135) "functional attributes of antibodies effector cells and target cells affecting nk cell mediated antibody dependent cellular cytotoxicity"
["volume"]=>
string(3) "203"
["issue"]=>
string(2) "12"
["pages"]=>
string(9) "3126-3135"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31748349"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1900985"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1900985"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31748349"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31748349"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/08/14 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/10/04 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/11/22 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/05/27 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/11/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1900985"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/12/15 00:00"
["sortfirstauthor"]=>
string(10) "Temming AR"
["vernaculartitle"]=>
string(0) ""
}
[31699790]=>
array(43) {
["uid"]=>
string(8) "31699790"
["pubdate"]=>
string(8) "2020 Aug"
["epubdate"]=>
string(10) "2019 Nov 7"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(13) {
[0]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Shin HKH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Baek JH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Champagne DP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Yoshida T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Buehler PW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(94) "Red blood cell metabolism in Rhesus macaques and humans: comparative biology of blood storage."
["sorttitle"]=>
string(92) "red blood cell metabolism in rhesus macaques and humans comparative biology of blood storage"
["volume"]=>
string(3) "105"
["issue"]=>
string(1) "8"
["pages"]=>
string(9) "2174-2186"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(19) "PubMed - in process"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31699790"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2019.229930"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2019.229930"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7395274"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31699790"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31699790"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC7395274;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/06/19 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/10/10 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/11/09 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/11/09 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/11/09 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(33) "doi: 10.3324/haematol.2019.229930"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2020/08/01 00:00"
["sortfirstauthor"]=>
string(11) "Stefanoni D"
["vernaculartitle"]=>
string(0) ""
}
[31350307]=>
array(43) {
["uid"]=>
string(8) "31350307"
["pubdate"]=>
string(11) "2019 Aug 13"
["epubdate"]=>
string(0) ""
["source"]=>
string(9) "Blood Adv"
["authors"]=>
array(13) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hay AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "de Wolski K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Waterman H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Lebedev J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Culp-Hill R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Gorham JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Ranson MS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Thomson PC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(114) "Differences in Steap3 expression are a mechanism of genetic variation of RBC storage and oxidative damage in mice."
["sorttitle"]=>
string(113) "differences in steap3 expression are a mechanism of genetic variation of rbc storage and oxidative damage in mice"
["volume"]=>
string(1) "3"
["issue"]=>
string(2) "15"
["pages"]=>
string(9) "2272-2285"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101698425"
["issn"]=>
string(9) "2473-9529"
["essn"]=>
string(9) "2473-9537"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31350307"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "bloodadvances.2019000605"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1182/bloodadvances.2019000605"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6693009"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31350307"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31350307"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6693009;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/02/11 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/05/15 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/07/28 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/07/28 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/08/01 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(14) "Blood advances"
["elocationid"]=>
string(37) "doi: 10.1182/bloodadvances.2019000605"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/08/13 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[31207887]=>
array(43) {
["uid"]=>
string(8) "31207887"
["pubdate"]=>
string(11) "2019 Jun 14"
["epubdate"]=>
string(11) "2019 Jun 14"
["source"]=>
string(9) "Nutrients"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(11) "Morrison EJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Champagne DP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(16) "Dzieciatkowska M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(6) "Guan F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Huffman DM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(14) "Santambrogio L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(109) "Parabiosis Incompletely Reverses Aging-Induced Metabolic Changes and Oxidant Stress in Mouse Red Blood Cells."
["sorttitle"]=>
string(108) "parabiosis incompletely reverses aging induced metabolic changes and oxidant stress in mouse red blood cells"
["volume"]=>
string(2) "11"
["issue"]=>
string(1) "6"
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101521595"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "2072-6643"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31207887"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "nu11061337"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(18) "10.3390/nu11061337"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6627295"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31207887"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31207887"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6627295;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/04/16 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2019/06/03 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/06/12 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/06/19 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/06/19 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/01/07 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(9) "Nutrients"
["elocationid"]=>
string(35) "pii: E1337. doi: 10.3390/nu11061337"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/06/14 00:00"
["sortfirstauthor"]=>
string(11) "Morrison EJ"
["vernaculartitle"]=>
string(0) ""
}
[31184577]=>
array(43) {
["uid"]=>
string(8) "31184577"
["pubdate"]=>
string(8) "2019 Jul"
["epubdate"]=>
string(10) "2019 Jun 6"
["source"]=>
string(14) "Blood Transfus"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Eisenmesser EZ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(118) "Protect, repair, destroy or sacrifice: a role of oxidative stress biology in inter-donor variability of blood storage?"
["sorttitle"]=>
string(114) "protect repair destroy or sacrifice a role of oxidative stress biology in inter donor variability of blood storage"
["volume"]=>
string(2) "17"
["issue"]=>
string(1) "4"
["pages"]=>
string(7) "281-288"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101237479"
["issn"]=>
string(9) "1723-2007"
["essn"]=>
string(9) "2385-2070"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31184577"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "2019.0072-19"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.2450/2019.0072-19"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6683869"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31184577"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31184577"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6683869;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/03/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/04/26 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/06/12 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/02/08 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/06/12 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(42) "Blood transfusion = Trasfusione del sangue"
["elocationid"]=>
string(25) "doi: 10.2450/2019.0072-19"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/07/01 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[31119659]=>
array(43) {
["uid"]=>
string(8) "31119659"
["pubdate"]=>
string(4) "2019"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Methods Mol Biol"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Anderson M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Wang Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(112) "LC-MS/MS-MRM-Based Targeted Metabolomics for Quantitative Analysis of Polyunsaturated Fatty Acids and Oxylipins."
["sorttitle"]=>
string(111) "lc ms ms mrm based targeted metabolomics for quantitative analysis of polyunsaturated fatty acids and oxylipins"
["volume"]=>
string(4) "1978"
["issue"]=>
string(0) ""
["pages"]=>
string(7) "107-120"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9214969"
["issn"]=>
string(9) "1064-3745"
["essn"]=>
string(9) "1940-6029"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31119659"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1007/978-1-4939-9236-2_7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31119659"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31119659"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/05/24 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/05/24 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/11/27 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(44) "Methods in molecular biology (Clifton, N.J.)"
["elocationid"]=>
string(32) "doi: 10.1007/978-1-4939-9236-2_7"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/01/01 00:00"
["sortfirstauthor"]=>
string(4) "Fu X"
["vernaculartitle"]=>
string(0) ""
}
[31002399]=>
array(43) {
["uid"]=>
string(8) "31002399"
["pubdate"]=>
string(8) "2019 Jul"
["epubdate"]=>
string(11) "2019 Apr 19"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(22) {
[0]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Mahajan S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Rapido F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "La Carpia F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Soffing M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Divgi C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(5) "Yeh R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Mintz A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Leslie L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Agrest I"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Karafin MS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Ginzburg Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(7) "Shaz BH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(10) "Schwartz J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(11) "Amireault P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(8) "Buffet P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(6) "Hod EA"
["title"]=>
string(88) "Reexamination of the chromium-51-labeled posttransfusion red blood cell recovery method."
["sorttitle"]=>
string(87) "reexamination of the chromium 51 labeled posttransfusion red blood cell recovery method"
["volume"]=>
string(2) "59"
["issue"]=>
string(1) "7"
["pages"]=>
string(9) "2264-2275"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "31002399"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15310"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31002399"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "31002399"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/01/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2019/03/06 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/03/10 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/04/20 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/06/03 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/04/20 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(6)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15310"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/07/01 00:00"
["sortfirstauthor"]=>
string(10) "Francis RO"
["vernaculartitle"]=>
string(0) ""
}
[30865302]=>
array(43) {
["uid"]=>
string(8) "30865302"
["pubdate"]=>
string(8) "2019 May"
["epubdate"]=>
string(11) "2019 Mar 13"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Busch M"
["title"]=>
string(89) "Chronological storage age and metabolic age of stored red blood cells: are they the same?"
["sorttitle"]=>
string(87) "chronological storage age and metabolic age of stored red blood cells are they the same"
["volume"]=>
string(2) "59"
["issue"]=>
string(1) "5"
["pages"]=>
string(9) "1620-1623"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30865302"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15248"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30865302"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30865302"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2019/01/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2019/02/06 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2019/02/10 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/03/14 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2020/06/02 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/03/14 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15248"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/05/01 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[30681727]=>
array(43) {
["uid"]=>
string(8) "30681727"
["pubdate"]=>
string(8) "2019 Feb"
["epubdate"]=>
string(11) "2019 Jan 25"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Wong ASL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Richards AL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(106) "Alloimmunogenicity of an isolated MHC allele is affected by the context of MHC mismatch in a murine model."
["sorttitle"]=>
string(105) "alloimmunogenicity of an isolated mhc allele is affected by the context of mhc mismatch in a murine model"
["volume"]=>
string(2) "59"
["issue"]=>
string(1) "2"
["pages"]=>
string(7) "744-753"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30681727"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.15109"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7025900"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1000038"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30681727"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30681727"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC7025900;manuscript-id: NIHMS1000038;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/12/27 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2018/09/11 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/09/12 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2019/01/27 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/07/30 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2019/01/26 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.15109"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/02/01 00:00"
["sortfirstauthor"]=>
string(9) "Hudson KE"
["vernaculartitle"]=>
string(0) ""
}
[30353560]=>
array(43) {
["uid"]=>
string(8) "30353560"
["pubdate"]=>
string(8) "2019 Jan"
["epubdate"]=>
string(11) "2018 Oct 24"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(18) {
[0]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Culp-Hill R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Anderson M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Gehrke S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Zheng C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(5) "Guo Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(6) "Page G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Gladwin MT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Kleinman S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(9) "Lanteri M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(7) "Stone M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(65) "Recipient Epidemiology and Donor Evaluation Study-III (REDS-III)."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(171) "Heterogeneity of blood processing and storage additives in different centers impacts stored red blood cell metabolism as much as storage time: lessons from REDS-III-Omics."
["sorttitle"]=>
string(169) "heterogeneity of blood processing and storage additives in different centers impacts stored red blood cell metabolism as much as storage time lessons from reds iii omics"
["volume"]=>
string(2) "59"
["issue"]=>
string(1) "1"
["pages"]=>
string(6) "89-100"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30353560"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.14979"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6322946"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS993154"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30353560"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30353560"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC6322946;manuscript-id: NIHMS993154;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2018/07/16 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2018/08/31 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/08/31 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/10/26 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/05/07 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/10/25 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Transfusion. 2019 Jan;59(1):2-5"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(30615814)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(16)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.14979"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2019/01/01 00:00"
["sortfirstauthor"]=>
string(14) "D'Alessandro A"
["vernaculartitle"]=>
string(0) ""
}
[30312994]=>
array(43) {
["uid"]=>
string(8) "30312994"
["pubdate"]=>
string(8) "2018 Dec"
["epubdate"]=>
string(11) "2018 Oct 12"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(15) {
[0]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(16) "Dzieciatkowska M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Culp-Hill R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Stefanoni D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Hill RC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Yoshida T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Dunham A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Dumont LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(7) "Busch M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "Eisenmesser EZ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(143) "Methylation of protein aspartates and deamidated asparagines as a function of blood bank storage and oxidative stress in human red blood cells."
["sorttitle"]=>
string(142) "methylation of protein aspartates and deamidated asparagines as a function of blood bank storage and oxidative stress in human red blood cells"
["volume"]=>
string(2) "58"
["issue"]=>
string(2) "12"
["pages"]=>
string(9) "2978-2991"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30312994"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.14936"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6357231"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS993130"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30312994"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30312994"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC6357231;manuscript-id: NIHMS993130;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2018/05/21 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2018/07/30 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/08/15 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/10/13 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/04/10 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/10/13 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Transfusion. 2019 Jan;59(1):2-5"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(30615814)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(10)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.14936"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/12/01 00:00"
["sortfirstauthor"]=>
string(8) "Reisz JA"
["vernaculartitle"]=>
string(0) ""
}
[30278801]=>
array(43) {
["uid"]=>
string(8) "30278801"
["pubdate"]=>
string(8) "2018 Nov"
["epubdate"]=>
string(11) "2018 Oct 14"
["source"]=>
string(21) "Expert Rev Proteomics"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(5) "Xia Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(175) "Red blood cells as an organ? How deep omics characterization of the most abundant cell in the human body highlights other systemic metabolic functions beyond oxygen transport."
["sorttitle"]=>
string(173) "red blood cells as an organ how deep omics characterization of the most abundant cell in the human body highlights other systemic metabolic functions beyond oxygen transport"
["volume"]=>
string(2) "15"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "855-864"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101223548"
["issn"]=>
string(9) "1478-9450"
["essn"]=>
string(9) "1744-8387"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30278801"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1080/14789450.2018.1531710"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30278801"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30278801"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/10/04 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/06/25 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/10/04 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(10)
["fulljournalname"]=>
string(27) "Expert review of proteomics"
["elocationid"]=>
string(34) "doi: 10.1080/14789450.2018.1531710"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/11/01 00:00"
["sortfirstauthor"]=>
string(8) "Nemkov T"
["vernaculartitle"]=>
string(0) ""
}
[30239377]=>
array(43) {
["uid"]=>
string(8) "30239377"
["pubdate"]=>
string(8) "2018 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(17) "Curr Opin Hematol"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(10) "Karafin MS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Thomas T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Field JJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Francis RO"
["title"]=>
string(105) "The clinical impact of glucose-6-phosphate dehydrogenase deficiency in patients with sickle cell disease."
["sorttitle"]=>
string(100) "clinical impact of glucose 6 phosphate dehydrogenase deficiency in patients with sickle cell disease"
["volume"]=>
string(2) "25"
["issue"]=>
string(1) "6"
["pages"]=>
string(7) "494-499"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9430802"
["issn"]=>
string(9) "1065-6251"
["essn"]=>
string(9) "1531-7048"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "30239377"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1097/MOH.0000000000000455"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30239377"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "30239377"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/09/22 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/09/26 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/09/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(29) "Current opinion in hematology"
["elocationid"]=>
string(33) "doi: 10.1097/MOH.0000000000000455"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Karafin MS"
["vernaculartitle"]=>
string(0) ""
}
[29550761]=>
array(43) {
["uid"]=>
string(8) "29550761"
["pubdate"]=>
string(8) "2018 Jun"
["epubdate"]=>
string(11) "2018 Mar 17"
["source"]=>
string(13) "J Clin Pathol"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(134) "Identification of IgG3-specific epitope that remedies problem in diagnostic IgG subclass determination due to human genetic variation."
["sorttitle"]=>
string(133) "identification of igg3 specific epitope that remedies problem in diagnostic igg subclass determination due to human genetic variation"
["volume"]=>
string(2) "71"
["issue"]=>
string(1) "6"
["pages"]=>
string(7) "559-561"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0376601"
["issn"]=>
string(9) "0021-9746"
["essn"]=>
string(9) "1472-4146"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29550761"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "jclinpath-2018-205001"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1136/jclinpath-2018-205001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29550761"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29550761"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2018/01/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2018/02/07 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/02/23 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/03/20 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/06/05 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/03/19 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(29) "Journal of clinical pathology"
["elocationid"]=>
string(34) "doi: 10.1136/jclinpath-2018-205001"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/06/01 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[29464723]=>
array(43) {
["uid"]=>
string(8) "29464723"
["pubdate"]=>
string(8) "2018 May"
["epubdate"]=>
string(11) "2018 Feb 20"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(12) "Gunasekera D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Pratt KP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(8) "Pratt KP"
["title"]=>
string(154) "A unique major histocompatibility complex Class II-binding register correlates with HLA-DR11-associated immunogenicity of the major K blood group antigen."
["sorttitle"]=>
string(151) "unique major histocompatibility complex class ii binding register correlates with hla dr11 associated immunogenicity of the major k blood group antigen"
["volume"]=>
string(2) "58"
["issue"]=>
string(1) "5"
["pages"]=>
string(9) "1171-1181"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29464723"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.14525"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29464723"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29464723"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/09/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2017/11/29 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/01/02 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/02/22 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/12/12 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/02/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.14525"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/05/01 00:00"
["sortfirstauthor"]=>
string(12) "Gunasekera D"
["vernaculartitle"]=>
string(0) ""
}
[29395164]=>
array(43) {
["uid"]=>
string(8) "29395164"
["pubdate"]=>
string(8) "2018 Apr"
["epubdate"]=>
string(11) "2018 Jan 31"
["source"]=>
string(17) "J Immunol Methods"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Lebedev J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(124) "Common murine immunoglobulin detection reagents have diminished reactivity with IgG3 - A vulnerability to misinterpretation."
["sorttitle"]=>
string(121) "common murine immunoglobulin detection reagents have diminished reactivity with igg3 a vulnerability to misinterpretation"
["volume"]=>
string(3) "455"
["issue"]=>
string(0) ""
["pages"]=>
string(5) "10-13"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "1305440"
["issn"]=>
string(9) "0022-1759"
["essn"]=>
string(9) "1872-7905"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29395164"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0022-1759(17)30544-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.jim.2018.01.011"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29395164"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29395164"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/12/20 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2018/01/09 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/01/24 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/02/06 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/10/12 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/02/04 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(32) "Journal of immunological methods"
["elocationid"]=>
string(30) "doi: 10.1016/j.jim.2018.01.011"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/04/01 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[29307717]=>
array(43) {
["uid"]=>
string(8) "29307717"
["pubdate"]=>
string(8) "2018 May"
["epubdate"]=>
string(10) "2018 Jan 4"
["source"]=>
string(28) "Biol Blood Marrow Transplant"
["authors"]=>
array(16) {
[0]=>
array(3) {
["name"]=>
string(8) "Hosoba S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Waller EK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Shenvi N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Graiser M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Easley KA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Al-Kadhimi Z"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Andoh A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Antun AG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Barclay S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(12) "Josephson CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(7) "Koff JL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(9) "Khoury HJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(11) "Langston AA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(8) "Giver CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(8) "Giver CR"
["title"]=>
string(167) "Peritransplantation Red Blood Cell Transfusion Is Associated with Increased Risk of Graft-versus-Host Disease after Allogeneic Hematopoietic Stem Cell Transplantation."
["sorttitle"]=>
string(166) "peritransplantation red blood cell transfusion is associated with increased risk of graft versus host disease after allogeneic hematopoietic stem cell transplantation"
["volume"]=>
string(2) "24"
["issue"]=>
string(1) "5"
["pages"]=>
string(7) "973-982"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9600628"
["issn"]=>
string(9) "1083-8791"
["essn"]=>
string(9) "1523-6536"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29307717"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1083-8791(18)30003-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.bbmt.2018.01.003"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5953791"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS937398"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29307717"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29307717"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5953791;manuscript-id: NIHMS937398;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/10/26 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2018/01/01 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2018/01/09 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/04/20 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2018/01/09 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(52) "Biol Blood Marrow Transplant. 2018 May;24(5):884-886"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(29551447)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(114) "Biology of blood and marrow transplantation : journal of the American Society for Blood and Marrow Transplantation"
["elocationid"]=>
string(31) "doi: 10.1016/j.bbmt.2018.01.003"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/05/01 00:00"
["sortfirstauthor"]=>
string(8) "Hosoba S"
["vernaculartitle"]=>
string(0) ""
}
[29243830]=>
array(43) {
["uid"]=>
string(8) "29243830"
["pubdate"]=>
string(8) "2018 Jan"
["epubdate"]=>
string(11) "2017 Dec 15"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(26) {
[0]=>
array(3) {
["name"]=>
string(9) "Vostal JG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Buehler PW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Gelderman MP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Alayash AI"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Doctor A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Glynn SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Hess JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Klein H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Acker JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(11) "Spinella PC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(9) "Palsson B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(8) "Raife TJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(8) "Busch MP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(10) "McMahon TJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(13) "Intaglietta M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(9) "Swartz HM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(9) "Dubick MA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(8) "Cardin S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(8) "Patel RP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(10) "Natanson C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[22]=>
array(3) {
["name"]=>
string(9) "Weisel JW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[23]=>
array(3) {
["name"]=>
string(12) "Muszynski JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[24]=>
array(3) {
["name"]=>
string(9) "Norris PJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[25]=>
array(3) {
["name"]=>
string(7) "Ness PM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Ness PM"
["title"]=>
string(120) "Proceedings of the Food and Drug Administration's public workshop on new red blood cell product regulatory science 2016."
["sorttitle"]=>
string(119) "proceedings of the food and drug administration s public workshop on new red blood cell product regulatory science 2016"
["volume"]=>
string(2) "58"
["issue"]=>
string(1) "1"
["pages"]=>
string(7) "255-266"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(0) {
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29243830"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.14435"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6258195"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS925081"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29243830"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29243830"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC6258195;manuscript-id: NIHMS925081;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/08/18 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2017/09/11 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/09/13 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/12/16 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/09/11 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/12/16 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(6)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.14435"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/01/01 00:00"
["sortfirstauthor"]=>
string(9) "Vostal JG"
["vernaculartitle"]=>
string(0) ""
}
[29163500]=>
array(43) {
["uid"]=>
string(8) "29163500"
["pubdate"]=>
string(4) "2017"
["epubdate"]=>
string(11) "2017 Oct 30"
["source"]=>
string(13) "Front Immunol"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "de Wolski K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Richards AL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(15) "Schniederjan MJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(109) "Antibodies to Senescent Antigen and C3 Are Not Required for Normal Red Blood Cell Lifespan in a Murine Model."
["sorttitle"]=>
string(108) "antibodies to senescent antigen and c3 are not required for normal red blood cell lifespan in a murine model"
["volume"]=>
string(1) "8"
["issue"]=>
string(0) ""
["pages"]=>
string(4) "1425"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101560960"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1664-3224"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29163500"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.3389/fimmu.2017.01425"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5670101"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29163500"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29163500"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5670101;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/07/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/10/13 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/11/23 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/11/23 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/11/23 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(23) "Frontiers in immunology"
["elocationid"]=>
string(29) "doi: 10.3389/fimmu.2017.01425"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/10/30 00:00"
["sortfirstauthor"]=>
string(9) "Hudson KE"
["vernaculartitle"]=>
string(0) ""
}
[29163471]=>
array(43) {
["uid"]=>
string(8) "29163471"
["pubdate"]=>
string(4) "2017"
["epubdate"]=>
string(10) "2017 Nov 3"
["source"]=>
string(13) "Front Immunol"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(11) "Richards AL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Hudson KE"
["title"]=>
string(122) "Innate B-1 B Cells Are Not Enriched in Red Blood Cell Autoimmune Mice: Importance of B Cell Receptor Transgenic Selection."
["sorttitle"]=>
string(120) "innate b 1 b cells are not enriched in red blood cell autoimmune mice importance of b cell receptor transgenic selection"
["volume"]=>
string(1) "8"
["issue"]=>
string(0) ""
["pages"]=>
string(4) "1366"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101560960"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1664-3224"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29163471"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.3389/fimmu.2017.01366"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5675845"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29163471"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29163471"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5675845;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/08/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/10/05 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/11/23 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/11/23 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/11/23 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(23) "Frontiers in immunology"
["elocationid"]=>
string(29) "doi: 10.3389/fimmu.2017.01366"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/11/03 00:00"
["sortfirstauthor"]=>
string(11) "Richards AL"
["vernaculartitle"]=>
string(0) ""
}
[29079593]=>
array(43) {
["uid"]=>
string(8) "29079593"
["pubdate"]=>
string(8) "2018 Feb"
["epubdate"]=>
string(11) "2017 Oct 27"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(23) {
[0]=>
array(3) {
["name"]=>
string(8) "Nemkov T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Sun K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Reisz JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Song A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Yoshida T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Dunham A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Wither MJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Roach RC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(16) "Dzieciatkowska M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Rogers SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(8) "Doctor A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(12) "Kriebardis A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(11) "Antonelou M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(13) "Papassideri I"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(8) "Young CT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(9) "Thomas TA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(9) "Hansen KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[18]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[19]=>
array(3) {
["name"]=>
string(5) "Xia Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[20]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[21]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[22]=>
array(3) {
["name"]=>
string(14) "D'Alessandro A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "D'Alessandro A"
["title"]=>
string(141) "Hypoxia modulates the purine salvage pathway and decreases red blood cell and supernatant levels of hypoxanthine during refrigerated storage."
["sorttitle"]=>
string(140) "hypoxia modulates the purine salvage pathway and decreases red blood cell and supernatant levels of hypoxanthine during refrigerated storage"
["volume"]=>
string(3) "103"
["issue"]=>
string(1) "2"
["pages"]=>
string(7) "361-372"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "29079593"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2017.178608"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2017.178608"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5792281"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29079593"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "29079593"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5792281;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/08/11 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/10/24 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/10/29 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2019/03/21 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/10/29 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(28)
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(33) "doi: 10.3324/haematol.2017.178608"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2018/02/01 00:00"
["sortfirstauthor"]=>
string(8) "Nemkov T"
["vernaculartitle"]=>
string(0) ""
}
[28921569]=>
array(43) {
["uid"]=>
string(8) "28921569"
["pubdate"]=>
string(8) "2017 Nov"
["epubdate"]=>
string(11) "2017 Sep 16"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(5) "Hay A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Waterman HR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "de Wolski K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(92) "Murine red blood cells from genetically distinct donors cross-regulate when stored together."
["sorttitle"]=>
string(91) "murine red blood cells from genetically distinct donors cross regulate when stored together"
["volume"]=>
string(2) "57"
["issue"]=>
string(2) "11"
["pages"]=>
string(9) "2657-2664"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28921569"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.14313"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7025899"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS929880"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28921569"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28921569"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC7025899;manuscript-id: NIHMS929880;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/12/21 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2017/06/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/06/06 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/09/19 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/11/29 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/09/19 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.14313"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/11/01 00:00"
["sortfirstauthor"]=>
string(5) "Hay A"
["vernaculartitle"]=>
string(0) ""
}
[28679954]=>
array(43) {
["uid"]=>
string(8) "28679954"
["pubdate"]=>
string(10) "2017 Jul 6"
["epubdate"]=>
string(10) "2017 Jul 6"
["source"]=>
string(11) "JCI Insight"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Delaney M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(5) "Er LS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(71) "Errors in data interpretation from genetic variation of human analytes."
["sorttitle"]=>
string(70) "errors in data interpretation from genetic variation of human analytes"
["volume"]=>
string(1) "2"
["issue"]=>
string(2) "13"
["pages"]=>
string(0) ""
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101676073"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "2379-3708"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28679954"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "94532"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1172/jci.insight.94532"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5499359"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28679954"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28679954"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5499359;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/04/11 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/05/23 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/07/07 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/07/07 06:01"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/07/07 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(11) "JCI insight"
["elocationid"]=>
string(42) "pii: 94532. doi: 10.1172/jci.insight.94532"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/07/06 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[28630094]=>
array(43) {
["uid"]=>
string(8) "28630094"
["pubdate"]=>
string(10) "2017 Aug 1"
["epubdate"]=>
string(11) "2017 Jun 19"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(7) "Gibb DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Liu J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Natarajan P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(18) "Santhanakrishnan M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Madrid DJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(13) "Eisenbarth SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Iwasaki A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(104) "Type I IFN Is Necessary and Sufficient for Inflammation-Induced Red Blood Cell Alloimmunization in Mice."
["sorttitle"]=>
string(103) "type i ifn is necessary and sufficient for inflammation induced red blood cell alloimmunization in mice"
["volume"]=>
string(3) "199"
["issue"]=>
string(1) "3"
["pages"]=>
string(9) "1041-1050"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28630094"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1700401"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1700401"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5568771"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS893808"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28630094"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28630094"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5568771;manuscript-id: NIHMS893808;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2017/03/17 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/05/23 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/06/21 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/10/11 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/06/21 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(14)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1700401"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/08/01 00:00"
["sortfirstauthor"]=>
string(7) "Gibb DR"
["vernaculartitle"]=>
string(0) ""
}
[28263174]=>
array(43) {
["uid"]=>
string(8) "28263174"
["pubdate"]=>
string(8) "2017 Mar"
["epubdate"]=>
string(0) ""
["source"]=>
string(14) "Blood Transfus"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(15) "Bandyopadhyay S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(13) "Brittenham GM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(128) "Iron-deficient erythropoiesis in blood donors and red blood cell recovery after transfusion: initial studies with a mouse model."
["sorttitle"]=>
string(126) "iron deficient erythropoiesis in blood donors and red blood cell recovery after transfusion initial studies with a mouse model"
["volume"]=>
string(2) "15"
["issue"]=>
string(1) "2"
["pages"]=>
string(7) "158-164"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101237479"
["issn"]=>
string(9) "1723-2007"
["essn"]=>
string(9) "2385-2070"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28263174"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "2017.0349-16"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.2450/2017.0349-16"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5336338"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28263174"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28263174"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5336338;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/12/09 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/12/16 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/03/07 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/03/07 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/03/11 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(6)
["fulljournalname"]=>
string(42) "Blood transfusion = Trasfusione del sangue"
["elocationid"]=>
string(25) "doi: 10.2450/2017.0349-16"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/03/01 00:00"
["sortfirstauthor"]=>
string(15) "Bandyopadhyay S"
["vernaculartitle"]=>
string(0) ""
}
[28263165]=>
array(43) {
["uid"]=>
string(8) "28263165"
["pubdate"]=>
string(8) "2017 Mar"
["epubdate"]=>
string(0) ""
["source"]=>
string(14) "Blood Transfus"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(154) "Large retrospective effects, clear differences in animals, and multiple negative randomised controlled trials: this is exactly how it is supposed to work."
["sorttitle"]=>
string(150) "large retrospective effects clear differences in animals and multiple negative randomised controlled trials this is exactly how it is supposed to work"
["volume"]=>
string(2) "15"
["issue"]=>
string(1) "2"
["pages"]=>
string(7) "104-106"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101237479"
["issn"]=>
string(9) "1723-2007"
["essn"]=>
string(9) "2385-2070"
["pubtype"]=>
array(1) {
[0]=>
string(9) "Editorial"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28263165"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "2017.0307-16"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.2450/2017.0307-16"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5336329"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28263165"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28263165"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5336329;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/03/07 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/03/07 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/06/07 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(42) "Blood transfusion = Trasfusione del sangue"
["elocationid"]=>
string(25) "doi: 10.2450/2017.0307-16"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/03/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[28250159]=>
array(43) {
["uid"]=>
string(8) "28250159"
["pubdate"]=>
string(10) "2017 Apr 1"
["epubdate"]=>
string(10) "2017 Mar 1"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Bennett A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Kamili NA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Mener A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(14) "Gerner-Smidt C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(11) "Sullivan HC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(7) "Hale JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Wieland A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(12) "Youngblood B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Stowell SR"
["title"]=>
string(84) "Antigen Density Dictates Immune Responsiveness following Red Blood Cell Transfusion."
["sorttitle"]=>
string(83) "antigen density dictates immune responsiveness following red blood cell transfusion"
["volume"]=>
string(3) "198"
["issue"]=>
string(1) "7"
["pages"]=>
string(9) "2671-2680"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "28250159"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1601736"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1601736"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5777137"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS933068"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28250159"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "28250159"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5777137;manuscript-id: NIHMS933068;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/10/11 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2017/01/15 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2017/03/03 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/08/16 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2017/03/03 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(13)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1601736"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2017/04/01 00:00"
["sortfirstauthor"]=>
string(9) "Arthur CM"
["vernaculartitle"]=>
string(0) ""
}
[27913515]=>
array(43) {
["uid"]=>
string(8) "27913515"
["pubdate"]=>
string(10) "2016 Dec 2"
["epubdate"]=>
string(0) ""
["source"]=>
string(38) "Hematology Am Soc Hematol Educ Program"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Hudson KE"
["title"]=>
string(61) "Cellular immune responses in red blood cell alloimmunization."
["sorttitle"]=>
string(60) "cellular immune responses in red blood cell alloimmunization"
["volume"]=>
string(4) "2016"
["issue"]=>
string(1) "1"
["pages"]=>
string(7) "452-456"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "100890099"
["issn"]=>
string(9) "1520-4391"
["essn"]=>
string(9) "1520-4383"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27913515"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "2016/1/452"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(31) "10.1182/asheducation-2016.1.452"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC6142485"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27913515"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27913515"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC6142485;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/12/04 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/12/04 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/05/16 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(61) "Hematology. American Society of Hematology. Education Program"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/12/02 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[27662015]=>
array(43) {
["uid"]=>
string(8) "27662015"
["pubdate"]=>
string(8) "2016 Nov"
["epubdate"]=>
string(10) "2016 Aug 4"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(8) "Arneja A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Salazar JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Jiang W"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Luckey CJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Luckey CJ"
["title"]=>
string(177) "Interleukin-6 receptor-alpha signaling drives anti-RBC alloantibody production and T-follicular helper cell differentiation in a murine model of red blood cell alloimmunization."
["sorttitle"]=>
string(176) "interleukin 6 receptor alpha signaling drives anti rbc alloantibody production and t follicular helper cell differentiation in a murine model of red blood cell alloimmunization"
["volume"]=>
string(3) "101"
["issue"]=>
string(2) "11"
["pages"]=>
string(9) "e440-e444"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(6) "Letter"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27662015"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2016.149278"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2016.149278"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5394864"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27662015"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27662015"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5394864;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/11/02 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2018/02/13 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/09/24 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(10)
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/11/01 00:00"
["sortfirstauthor"]=>
string(8) "Arneja A"
["vernaculartitle"]=>
string(0) ""
}
[27632931]=>
array(43) {
["uid"]=>
string(8) "27632931"
["pubdate"]=>
string(8) "2016 Dec"
["epubdate"]=>
string(11) "2016 Sep 16"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(11) {
[0]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Delaney M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Wang X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(5) "Er LS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Vidarsson G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Stegmann TC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Lebedev JN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(4) "Wu Y"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(11) "AuBuchon JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(107) "Serological blind spots for variants of human IgG3 and IgG4 by a commonly used anti-immunoglobulin reagent."
["sorttitle"]=>
string(106) "serological blind spots for variants of human igg3 and igg4 by a commonly used anti immunoglobulin reagent"
["volume"]=>
string(2) "56"
["issue"]=>
string(2) "12"
["pages"]=>
string(9) "2953-2962"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27632931"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13812"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5444903"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS858343"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27632931"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27632931"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5444903;manuscript-id: NIHMS858343;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/12/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/08/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/08/07 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/09/17 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/06/14 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/09/17 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(39) "Transfusion. 2016 Dec;56(12 ):2913-2915"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(27933617)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13812"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/12/01 00:00"
["sortfirstauthor"]=>
string(8) "Howie HL"
["vernaculartitle"]=>
string(0) ""
}
[27582209]=>
array(43) {
["uid"]=>
string(8) "27582209"
["pubdate"]=>
string(10) "2016 Sep 1"
["epubdate"]=>
string(0) ""
["source"]=>
string(6) "Nature"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(61) "Scientific advances: Fallacy of perfection harms peer review."
["sorttitle"]=>
string(59) "scientific advances fallacy of perfection harms peer review"
["volume"]=>
string(3) "537"
["issue"]=>
string(4) "7618"
["pages"]=>
string(2) "34"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0410462"
["issn"]=>
string(9) "0028-0836"
["essn"]=>
string(9) "1476-4687"
["pubtype"]=>
array(1) {
[0]=>
string(6) "Letter"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27582209"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "537034a"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(15) "10.1038/537034a"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27582209"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27582209"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/09/02 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/09/02 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/09/27 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(6) "Nature"
["elocationid"]=>
string(20) "doi: 10.1038/537034a"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/09/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[27514704]=>
array(43) {
["uid"]=>
string(8) "27514704"
["pubdate"]=>
string(8) "2016 Oct"
["epubdate"]=>
string(11) "2016 Aug 12"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Felcyn JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Odem-Davis K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(108) "Bioactive lipids accumulate in stored red blood cells despite leukoreduction: a targeted metabolomics study."
["sorttitle"]=>
string(106) "bioactive lipids accumulate in stored red blood cells despite leukoreduction a targeted metabolomics study"
["volume"]=>
string(2) "56"
["issue"]=>
string(2) "10"
["pages"]=>
string(9) "2560-2570"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27514704"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13748"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27514704"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27514704"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/04/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/05/31 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/06/01 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/08/16 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/05/27 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/08/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(20)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13748"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/10/01 00:00"
["sortfirstauthor"]=>
string(4) "Fu X"
["vernaculartitle"]=>
string(0) ""
}
[27507802]=>
array(43) {
["uid"]=>
string(8) "27507802"
["pubdate"]=>
string(8) "2016 Oct"
["epubdate"]=>
string(10) "2016 Aug 9"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(8) "Kanias T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Sinchar D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Osei-Hwedieh D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Baust JJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Jordan A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Waterman HR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(12) "de Wolski KS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Acker JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Gladwin MT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Gladwin MT"
["title"]=>
string(99) "Testosterone-dependent sex differences in red blood cell hemolysis in storage, stress, and disease."
["sorttitle"]=>
string(96) "testosterone dependent sex differences in red blood cell hemolysis in storage stress and disease"
["volume"]=>
string(2) "56"
["issue"]=>
string(2) "10"
["pages"]=>
string(9) "2571-2583"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27507802"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5065383"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13745"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS797002"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27507802"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27507802"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC5065383;manuscript-id: NIHMS797002;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/04/04 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/06/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/06/03 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/08/11 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/05/27 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/08/11 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(28)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13745"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/10/01 00:00"
["sortfirstauthor"]=>
string(8) "Kanias T"
["vernaculartitle"]=>
string(0) ""
}
[27345021]=>
array(43) {
["uid"]=>
string(8) "27345021"
["pubdate"]=>
string(8) "2016 Jul"
["epubdate"]=>
string(11) "2016 Jun 16"
["source"]=>
string(12) "EBioMedicine"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(7) "Gibb DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Calabro S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(5) "Liu D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Tormey CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(13) "Eisenbarth SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(13) "Eisenbarth SC"
["title"]=>
string(96) "The Nlrp3 Inflammasome Does Not Regulate Alloimmunization to Transfused Red Blood Cells in Mice."
["sorttitle"]=>
string(91) "nlrp3 inflammasome does not regulate alloimmunization to transfused red blood cells in mice"
["volume"]=>
string(1) "9"
["issue"]=>
string(0) ""
["pages"]=>
string(5) "77-86"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101647039"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "2352-3964"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27345021"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S2352-3964(16)30252-3"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1016/j.ebiom.2016.06.008"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4972549"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27345021"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27345021"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4972549;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/04/29 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/06/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/06/05 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/06/28 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/06/28 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/02/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(8)
["fulljournalname"]=>
string(12) "EBioMedicine"
["elocationid"]=>
string(32) "doi: 10.1016/j.ebiom.2016.06.008"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/07/01 00:00"
["sortfirstauthor"]=>
string(7) "Gibb DR"
["vernaculartitle"]=>
string(0) ""
}
[27185856]=>
array(43) {
["uid"]=>
string(8) "27185856"
["pubdate"]=>
string(11) "2016 May 30"
["epubdate"]=>
string(11) "2016 May 16"
["source"]=>
string(9) "J Exp Med"
["authors"]=>
array(18) {
[0]=>
array(3) {
["name"]=>
string(9) "Calabro S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Gallman A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Gowthaman U"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(5) "Liu D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Chen P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(5) "Liu J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(15) "Krishnaswamy JK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(13) "Nascimento MS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(4) "Xu L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Williams A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(9) "Tormey CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[16]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[17]=>
array(3) {
["name"]=>
string(13) "Eisenbarth SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(13) "Eisenbarth SC"
["title"]=>
string(79) "Bridging channel dendritic cells induce immunity to transfused red blood cells."
["sorttitle"]=>
string(78) "bridging channel dendritic cells induce immunity to transfused red blood cells"
["volume"]=>
string(3) "213"
["issue"]=>
string(1) "6"
["pages"]=>
string(6) "887-96"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985109R"
["issn"]=>
string(9) "0022-1007"
["essn"]=>
string(9) "1540-9538"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27185856"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "jem.20151720"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(20) "10.1084/jem.20151720"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4886363"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27185856"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27185856"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4886363;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/11/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/04/06 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/05/18 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/05/18 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/07/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(36)
["fulljournalname"]=>
string(36) "The Journal of experimental medicine"
["elocationid"]=>
string(25) "doi: 10.1084/jem.20151720"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/05/30 00:00"
["sortfirstauthor"]=>
string(9) "Calabro S"
["vernaculartitle"]=>
string(0) ""
}
[27158944]=>
array(43) {
["uid"]=>
string(8) "27158944"
["pubdate"]=>
string(8) "2016 Aug"
["epubdate"]=>
string(10) "2016 May 9"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Slichter S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Odem-Davis K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Felcyn JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Bell LN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Gunst PR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Corson J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Jones MK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(9) "Pellham E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Bailey SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(4) "Fu X"
["title"]=>
string(82) "Metabolites in stored platelets associated with platelet recoveries and survivals."
["sorttitle"]=>
string(81) "metabolites in stored platelets associated with platelet recoveries and survivals"
["volume"]=>
string(2) "56"
["issue"]=>
string(1) "8"
["pages"]=>
string(7) "1974-83"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "27158944"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13631"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27158944"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "27158944"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2016/01/06 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2016/03/03 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/03/05 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/05/10 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/05/10 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/06/20 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Transfusion. 2016 Aug;56(8):1928-31"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(27500916)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(6)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13631"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/08/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[26954453]=>
array(43) {
["uid"]=>
string(8) "26954453"
["pubdate"]=>
string(8) "2016 Mar"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Odem-Davis K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Odem-Davis K"
["title"]=>
string(75) "Lost in translation: signal and frequency amplification in animal modeling."
["sorttitle"]=>
string(73) "lost in translation signal and frequency amplification in animal modeling"
["volume"]=>
string(2) "56"
["issue"]=>
string(1) "3"
["pages"]=>
string(5) "773-4"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(6) "Letter"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26954453"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13457"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26954453"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26954453"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/11/19 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/11/25 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/03/09 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/03/10 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/08/02 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13457"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/03/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[26921359]=>
array(43) {
["uid"]=>
string(8) "26921359"
["pubdate"]=>
string(8) "2016 May"
["epubdate"]=>
string(11) "2016 Feb 26"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(11) "de Wolski K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Dumont LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Waterman H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Odem-Davis K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(101) "Metabolic pathways that correlate with post-transfusion circulation of stored murine red blood cells."
["sorttitle"]=>
string(100) "metabolic pathways that correlate with post transfusion circulation of stored murine red blood cells"
["volume"]=>
string(3) "101"
["issue"]=>
string(1) "5"
["pages"]=>
string(6) "578-86"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26921359"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2015.139139"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2015.139139"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC5004382"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26921359"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26921359"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC5004382;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/11/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2016/02/15 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/02/28 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/02/28 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2017/07/08 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(23)
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(33) "doi: 10.3324/haematol.2015.139139"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/05/01 00:00"
["sortfirstauthor"]=>
string(11) "de Wolski K"
["vernaculartitle"]=>
string(0) ""
}
[26843479]=>
array(43) {
["uid"]=>
string(8) "26843479"
["pubdate"]=>
string(8) "2016 Apr"
["epubdate"]=>
string(10) "2016 Feb 3"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(11) "Richards AL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Hudson KE"
["title"]=>
string(98) "Erythrophagocytosis by plasmacytoid dendritic cells and monocytes is enhanced during inflammation."
["sorttitle"]=>
string(97) "erythrophagocytosis by plasmacytoid dendritic cells and monocytes is enhanced during inflammation"
["volume"]=>
string(2) "56"
["issue"]=>
string(1) "4"
["pages"]=>
string(6) "905-16"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26843479"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13497"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26843479"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26843479"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/08/25 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/11/05 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/11/13 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2016/02/05 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2016/02/05 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/08/30 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(12)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13497"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/04/01 00:00"
["sortfirstauthor"]=>
string(11) "Richards AL"
["vernaculartitle"]=>
string(0) ""
}
[26405215]=>
array(43) {
["uid"]=>
string(8) "26405215"
["pubdate"]=>
string(11) "2015 Sep 24"
["epubdate"]=>
string(0) ""
["source"]=>
string(5) "Blood"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(56) "Does AC stand for acylcarnitine, anticoagulant, or both?"
["sorttitle"]=>
string(53) "does ac stand for acylcarnitine anticoagulant or both"
["volume"]=>
string(3) "126"
["issue"]=>
string(2) "13"
["pages"]=>
string(6) "1524-5"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26405215"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "126/13/1524"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2015-07-659532"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26405215"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26405215"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/09/26 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/09/26 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/12/23 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Blood. 2015 Sep 24;126(13):1595-600"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(26175037)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2015-07-659532"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/09/24 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[26400622]=>
array(43) {
["uid"]=>
string(8) "26400622"
["pubdate"]=>
string(8) "2016 Jan"
["epubdate"]=>
string(11) "2015 Sep 24"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(11) "Waterman HR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Munday A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Odem-Davis K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(112) "Transfusion-induced alloimmunization and platelet refractoriness in a mouse model: mechanisms and interventions."
["sorttitle"]=>
string(110) "transfusion induced alloimmunization and platelet refractoriness in a mouse model mechanisms and interventions"
["volume"]=>
string(2) "56"
["issue"]=>
string(1) "1"
["pages"]=>
string(6) "91-100"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26400622"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13270"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26400622"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26400622"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/06/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/07/08 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/09/25 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/09/25 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/05/26 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(33) "Transfusion. 2016 Jan;56(1):19-22"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(26756708)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13270"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2016/01/01 00:00"
["sortfirstauthor"]=>
string(11) "Waterman HR"
["vernaculartitle"]=>
string(0) ""
}
[26260861]=>
array(43) {
["uid"]=>
string(8) "26260861"
["pubdate"]=>
string(8) "2015 Sep"
["epubdate"]=>
string(11) "2015 Aug 10"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(15) {
[0]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Triulzi D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Devine DV"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Dzik WH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Eder AF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(13) "Gernsheimer T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(12) "Josephson CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(6) "Kor DJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Luban NL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(12) "Roubinian NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Mondoro T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Welniak LA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(5) "Zou S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(7) "Glynn S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(60) "State of the Science in Transfusion Medicine Working Groups."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Glynn S"
["title"]=>
string(123) "2015 proceedings of the National Heart, Lung, and Blood Institute's State of the Science in Transfusion Medicine symposium."
["sorttitle"]=>
string(120) "2015 proceedings of the national heart lung and blood institute s state of the science in transfusion medicine symposium"
["volume"]=>
string(2) "55"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "2282-90"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26260861"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13250"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4573332"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS706310"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26260861"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26260861"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4573332;manuscript-id: NIHMS706310;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/06/24 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/06/30 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/06/30 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/08/12 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/08/12 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/12/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(21)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13250"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/09/01 00:00"
["sortfirstauthor"]=>
string(12) "Spitalnik SL"
["vernaculartitle"]=>
string(0) ""
}
[26188060]=>
array(43) {
["uid"]=>
string(8) "26188060"
["pubdate"]=>
string(10) "2015 Sep 1"
["epubdate"]=>
string(11) "2015 Jul 17"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(10) "Bernardo L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Yu H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Amash A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Lazarus AH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Lazarus AH"
["title"]=>
string(163) "IgG-Mediated Immune Suppression to Erythrocytes by Polyclonal Antibodies Can Occur in the Absence of Activating or Inhibitory Fcγ Receptors in a Full Mouse Model."
["sorttitle"]=>
string(160) "igg mediated immune suppression to erythrocytes by polyclonal antibodies can occur in the absence of activating or inhibitory fc receptors in a full mouse model"
["volume"]=>
string(3) "195"
["issue"]=>
string(1) "5"
["pages"]=>
string(7) "2224-30"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26188060"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1500790"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1500790"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26188060"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26188060"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/04/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/06/22 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/07/19 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/07/19 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/12/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1500790"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/09/01 00:00"
["sortfirstauthor"]=>
string(10) "Bernardo L"
["vernaculartitle"]=>
string(0) ""
}
[26185172]=>
array(43) {
["uid"]=>
string(8) "26185172"
["pubdate"]=>
string(8) "2015 Oct"
["epubdate"]=>
string(11) "2015 Jul 16"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Sullivan HC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(18) "Santhanakrishnan M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Natarajan P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(9) "Tormey CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(81) "Anti-KEL sera prevents alloimmunization to transfused KEL RBCs in a murine model."
["sorttitle"]=>
string(80) "anti kel sera prevents alloimmunization to transfused kel rbcs in a murine model"
["volume"]=>
string(3) "100"
["issue"]=>
string(2) "10"
["pages"]=>
string(6) "e394-7"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(6) "Letter"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26185172"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2015.128603"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2015.128603"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4591773"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26185172"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26185172"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4591773;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/07/18 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/07/18 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/04/07 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(17)
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(33) "doi: 10.3324/haematol.2015.128603"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/10/01 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[26174903]=>
array(43) {
["uid"]=>
string(8) "26174903"
["pubdate"]=>
string(8) "2015 Jul"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(85) "Do immune complexes play a role in hemolytic sequelae of intravenous immune globulin?"
["sorttitle"]=>
string(84) "do immune complexes play a role in hemolytic sequelae of intravenous immune globulin"
["volume"]=>
string(10) "55 Suppl 2"
["issue"]=>
string(0) ""
["pages"]=>
string(5) "S86-9"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26174903"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13158"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26174903"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26174903"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/12/18 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/04/04 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/04/09 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/07/16 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/07/16 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/09/29 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13158"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/07/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[26074173]=>
array(43) {
["uid"]=>
string(8) "26074173"
["pubdate"]=>
string(8) "2015 Jun"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(69) "Widening our gaze of red blood storage haze: a role for metabolomics."
["sorttitle"]=>
string(67) "widening our gaze of red blood storage haze a role for metabolomics"
["volume"]=>
string(2) "55"
["issue"]=>
string(1) "6"
["pages"]=>
string(7) "1139-42"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(9) "Editorial"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26074173"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.13071"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26074173"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26074173"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2015/01/29 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/02/05 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/06/16 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/06/16 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/09/12 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Transfusion. 2015 Jun;55(6):1155-68"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(25556331)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(7)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.13071"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/06/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[26053689]=>
array(43) {
["uid"]=>
string(8) "26053689"
["pubdate"]=>
string(8) "2015 Aug"
["epubdate"]=>
string(10) "2015 Jun 5"
["source"]=>
string(8) "Vox Sang"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(11) "Waterman HR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Howie HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(102) "Analysis of 24-h recovery of transfused stored RBCs in recipient mice of distinct genetic backgrounds."
["sorttitle"]=>
string(101) "analysis of 24 h recovery of transfused stored rbcs in recipient mice of distinct genetic backgrounds"
["volume"]=>
string(3) "109"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "148-54"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413606"
["issn"]=>
string(9) "0042-9007"
["essn"]=>
string(9) "1423-0410"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "26053689"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/vox.12270"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26053689"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "26053689"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/10/20 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2015/02/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/02/09 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/06/09 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/06/09 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2016/02/26 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(13) "Vox sanguinis"
["elocationid"]=>
string(22) "doi: 10.1111/vox.12270"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/08/01 00:00"
["sortfirstauthor"]=>
string(11) "Waterman HR"
["vernaculartitle"]=>
string(0) ""
}
[25670928]=>
array(43) {
["uid"]=>
string(8) "25670928"
["pubdate"]=>
string(8) "2014 Nov"
["epubdate"]=>
string(11) "2014 Nov 17"
["source"]=>
string(21) "Transfus Med Hemother"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(8) "Ryder AB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(77) "Factors Influencing RBC Alloimmunization: Lessons Learned from Murine Models."
["sorttitle"]=>
string(75) "factors influencing rbc alloimmunization lessons learned from murine models"
["volume"]=>
string(2) "41"
["issue"]=>
string(1) "6"
["pages"]=>
string(6) "406-19"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101176417"
["issn"]=>
string(9) "1660-3796"
["essn"]=>
string(9) "1660-3818"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25670928"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1159/000368995"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "tmh-0041-0406"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4280453"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25670928"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25670928"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4280453;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/07/03 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/10/01 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/02/12 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/02/12 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/02/12 06:01"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(29)
["fulljournalname"]=>
string(128) "Transfusion medicine and hemotherapy : offizielles Organ der Deutschen Gesellschaft fur Transfusionsmedizin und Immunhamatologie"
["elocationid"]=>
string(22) "doi: 10.1159/000368995"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/11/01 00:00"
["sortfirstauthor"]=>
string(8) "Ryder AB"
["vernaculartitle"]=>
string(0) ""
}
[25651844]=>
array(43) {
["uid"]=>
string(8) "25651844"
["pubdate"]=>
string(10) "2015 Apr 2"
["epubdate"]=>
string(10) "2015 Feb 4"
["source"]=>
string(5) "Blood"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(89) "Established and theoretical factors to consider in assessing the red cell storage lesion."
["sorttitle"]=>
string(88) "established and theoretical factors to consider in assessing the red cell storage lesion"
["volume"]=>
string(3) "125"
["issue"]=>
string(2) "14"
["pages"]=>
string(7) "2185-90"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25651844"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2014-11-567750"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2014-11-567750"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4383795"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25651844"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25651844"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4383795;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/11/23 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2015/01/29 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/02/06 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/02/06 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/06/19 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(24)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2014-11-567750"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/04/02 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[25621658]=>
array(43) {
["uid"]=>
string(8) "25621658"
["pubdate"]=>
string(4) "2015"
["epubdate"]=>
string(0) ""
["source"]=>
string(15) "Annu Rev Pathol"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(38) "Pathobiology of transfusion reactions."
["sorttitle"]=>
string(37) "pathobiology of transfusion reactions"
["volume"]=>
string(2) "10"
["issue"]=>
string(0) ""
["pages"]=>
string(6) "83-110"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101275111"
["issn"]=>
string(9) "1553-4006"
["essn"]=>
string(9) "1553-4014"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25621658"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(36) "10.1146/annurev-pathol-012414-040318"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25621658"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25621658"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2015/01/27 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2015/01/27 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/06/06 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(26) "Annual review of pathology"
["elocationid"]=>
string(41) "doi: 10.1146/annurev-pathol-012414-040318"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2015/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[25409031]=>
array(43) {
["uid"]=>
string(8) "25409031"
["pubdate"]=>
string(4) "2014"
["epubdate"]=>
string(11) "2014 Nov 19"
["source"]=>
string(8) "PLoS One"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(16) "Drury-Stewart DN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Lannert KW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Chung DW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Teramura GT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Konkle BA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Gammill HS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Johnsen JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Johnsen JM"
["title"]=>
string(107) "Complex changes in von Willebrand factor-associated parameters are acquired during uncomplicated pregnancy."
["sorttitle"]=>
string(106) "complex changes in von willebrand factor associated parameters are acquired during uncomplicated pregnancy"
["volume"]=>
string(1) "9"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "e112935"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101285081"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1932-6203"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "258"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25409031"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1371/journal.pone.0112935"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(15) "PONE-D-14-38104"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4237360"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25409031"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25409031"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC4237360;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/08/27 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/10/16 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/11/20 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/11/20 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/07/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(8) "PloS one"
["elocationid"]=>
string(33) "doi: 10.1371/journal.pone.0112935"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/11/19 00:00"
["sortfirstauthor"]=>
string(16) "Drury-Stewart DN"
["vernaculartitle"]=>
string(0) ""
}
[25342661]=>
array(43) {
["uid"]=>
string(8) "25342661"
["pubdate"]=>
string(11) "2014 Oct 23"
["epubdate"]=>
string(0) ""
["source"]=>
string(5) "Blood"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(44) "The fat and the skinny on acute lung injury."
["sorttitle"]=>
string(39) "fat and the skinny on acute lung injury"
["volume"]=>
string(3) "124"
["issue"]=>
string(2) "17"
["pages"]=>
string(6) "2617-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25342661"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "124/17/2617"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2014-09-597732"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25342661"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25342661"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/10/25 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/10/25 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/01/27 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Blood. 2014 Oct 23;124(17):2625-34"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(25143486)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2014-09-597732"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/10/23 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[25122924]=>
array(43) {
["uid"]=>
string(8) "25122924"
["pubdate"]=>
string(11) "2014 Sep 15"
["epubdate"]=>
string(11) "2014 Aug 13"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(4) "Yu H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Bernardo L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Amash A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Uchikawa M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Lazarus AH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Lazarus AH"
["title"]=>
string(154) "Antibody-mediated immune suppression of erythrocyte alloimmunization can occur independently from red cell clearance or epitope masking in a murine model."
["sorttitle"]=>
string(153) "antibody mediated immune suppression of erythrocyte alloimmunization can occur independently from red cell clearance or epitope masking in a murine model"
["volume"]=>
string(3) "193"
["issue"]=>
string(1) "6"
["pages"]=>
string(7) "2902-10"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25122924"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1302287"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1302287"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25122924"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25122924"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/08/15 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/08/15 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/12/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1302287"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/09/15 00:00"
["sortfirstauthor"]=>
string(4) "Yu H"
["vernaculartitle"]=>
string(0) ""
}
[25041478]=>
array(43) {
["uid"]=>
string(8) "25041478"
["pubdate"]=>
string(8) "2014 Dec"
["epubdate"]=>
string(11) "2014 Jul 20"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(10) "Wojczyk BS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Kim N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(15) "Bandyopadhyay S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(143) "Macrophages clear refrigerator storage-damaged red blood cells and subsequently secrete cytokines in vivo, but not in vitro, in a murine model."
["sorttitle"]=>
string(140) "macrophages clear refrigerator storage damaged red blood cells and subsequently secrete cytokines in vivo but not in vitro in a murine model"
["volume"]=>
string(2) "54"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "3186-97"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "25041478"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12755"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4267962"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS596037"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25041478"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "25041478"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4267962;manuscript-id: NIHMS596037;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/11/02 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2014/04/22 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/04/24 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/07/22 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/07/22 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2015/02/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12755"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/12/01 00:00"
["sortfirstauthor"]=>
string(10) "Wojczyk BS"
["vernaculartitle"]=>
string(0) ""
}
[24636780]=>
array(43) {
["uid"]=>
string(8) "24636780"
["pubdate"]=>
string(8) "2014 Apr"
["epubdate"]=>
string(10) "2014 Feb 5"
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Josephson CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Waller EK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Newman JL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Karatela S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Uppal K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(8) "Jones DP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Dumont LJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Dumont LJ"
["title"]=>
string(52) "Metabolomics of ADSOL (AS-1) red blood cell storage."
["sorttitle"]=>
string(49) "metabolomics of adsol as 1 red blood cell storage"
["volume"]=>
string(2) "28"
["issue"]=>
string(1) "2"
["pages"]=>
string(5) "41-55"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24636780"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(14)00004-2"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2014.01.003"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4004680"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS566651"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24636780"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24636780"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4004680;manuscript-id: NIHMS566651;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2014/01/02 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2014/01/29 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2014/01/29 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2014/03/19 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2014/03/19 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/12/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(32)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(31) "doi: 10.1016/j.tmrv.2014.01.003"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/04/01 00:00"
["sortfirstauthor"]=>
string(9) "Roback JD"
["vernaculartitle"]=>
string(0) ""
}
[24319246]=>
array(43) {
["uid"]=>
string(8) "24319246"
["pubdate"]=>
string(4) "2013"
["epubdate"]=>
string(0) ""
["source"]=>
string(38) "Hematology Am Soc Hematol Educ Program"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(65) "Fresh versus old blood: are there differences and do they matter?"
["sorttitle"]=>
string(63) "fresh versus old blood are there differences and do they matter"
["volume"]=>
string(4) "2013"
["issue"]=>
string(0) ""
["pages"]=>
string(5) "651-5"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "100890099"
["issn"]=>
string(9) "1520-4391"
["essn"]=>
string(9) "1520-4383"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24319246"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "2013/1/651"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(31) "10.1182/asheducation-2013.1.651"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24319246"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24319246"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/12/10 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/12/10 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/07/23 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(11)
["fulljournalname"]=>
string(61) "Hematology. American Society of Hematology. Education Program"
["elocationid"]=>
string(36) "doi: 10.1182/asheducation-2013.1.651"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[24108700]=>
array(43) {
["uid"]=>
string(8) "24108700"
["pubdate"]=>
string(11) "2013 Nov 15"
["epubdate"]=>
string(10) "2013 Oct 9"
["source"]=>
string(9) "J Immunol"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Liepkalns JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(102) "Antigen modulation confers protection to red blood cells from antibody through Fcγ receptor ligation."
["sorttitle"]=>
string(99) "antigen modulation confers protection to red blood cells from antibody through fc receptor ligation"
["volume"]=>
string(3) "191"
["issue"]=>
string(2) "10"
["pages"]=>
string(7) "5013-25"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(8) "2985117R"
["issn"]=>
string(9) "0022-1767"
["essn"]=>
string(9) "1550-6606"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24108700"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "jimmunol.1300885"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(24) "10.4049/jimmunol.1300885"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24108700"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24108700"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/10/11 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/10/11 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/01/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(18)
["fulljournalname"]=>
string(45) "Journal of immunology (Baltimore, Md. : 1950)"
["elocationid"]=>
string(29) "doi: 10.4049/jimmunol.1300885"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/11/15 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[24090731]=>
array(43) {
["uid"]=>
string(8) "24090731"
["pubdate"]=>
string(8) "2013 Oct"
["epubdate"]=>
string(10) "2013 Oct 3"
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(94) "Transfusion-induced bone marrow transplant rejection due to minor histocompatibility antigens."
["sorttitle"]=>
string(93) "transfusion induced bone marrow transplant rejection due to minor histocompatibility antigens"
["volume"]=>
string(2) "27"
["issue"]=>
string(1) "4"
["pages"]=>
string(5) "241-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "24090731"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(13)00060-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2013.08.002"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4284098"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS521528"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24090731"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "24090731"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4284098;manuscript-id: NIHMS521528;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/05/12 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/08/15 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/08/17 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/10/05 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/10/05 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/06/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(31) "doi: 10.1016/j.tmrv.2013.08.002"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/10/01 00:00"
["sortfirstauthor"]=>
string(8) "Patel SR"
["vernaculartitle"]=>
string(0) ""
}
[23878139]=>
array(43) {
["uid"]=>
string(8) "23878139"
["pubdate"]=>
string(10) "2013 Sep 5"
["epubdate"]=>
string(11) "2013 Jul 22"
["source"]=>
string(5) "Blood"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Sullivan HC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(88) "A novel role for C3 in antibody-induced red blood cell clearance and antigen modulation."
["sorttitle"]=>
string(85) "novel role for c3 in antibody induced red blood cell clearance and antigen modulation"
["volume"]=>
string(3) "122"
["issue"]=>
string(2) "10"
["pages"]=>
string(8) "1793-801"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23878139"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2013-06-508952"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2013-06-508952"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3765059"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23878139"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23878139"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3765059;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/07/24 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/07/24 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/10/30 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(21)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2013-06-508952"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/09/05 00:00"
["sortfirstauthor"]=>
string(16) "Girard-Pierce KR"
["vernaculartitle"]=>
string(0) ""
}
[23815264]=>
array(43) {
["uid"]=>
string(8) "23815264"
["pubdate"]=>
string(8) "2013 Nov"
["epubdate"]=>
string(10) "2013 Jul 2"
["source"]=>
string(8) "Vox Sang"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Jhang JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Pham HP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(88) "Glucose-6-phosphate dehydrogenase deficiency in transfusion medicine: the unknown risks."
["sorttitle"]=>
string(86) "glucose 6 phosphate dehydrogenase deficiency in transfusion medicine the unknown risks"
["volume"]=>
string(3) "105"
["issue"]=>
string(1) "4"
["pages"]=>
string(6) "271-82"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413606"
["issn"]=>
string(9) "0042-9007"
["essn"]=>
string(9) "1423-0410"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23815264"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/vox.12068"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3797222"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS494254"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23815264"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23815264"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3797222;manuscript-id: NIHMS494254;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/12/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/05/05 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/06/05 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/07/03 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/07/03 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/05/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(20)
["fulljournalname"]=>
string(13) "Vox sanguinis"
["elocationid"]=>
string(22) "doi: 10.1111/vox.12068"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Francis RO"
["vernaculartitle"]=>
string(0) ""
}
[23801629]=>
array(43) {
["uid"]=>
string(8) "23801629"
["pubdate"]=>
string(11) "2013 Aug 22"
["epubdate"]=>
string(11) "2013 Jun 25"
["source"]=>
string(5) "Blood"
["authors"]=>
array(12) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Henry KL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Halverson GR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Park JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Bennett AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(10) "Bunting ST"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(120) "Alloantibodies to a paternally derived RBC KEL antigen lead to hemolytic disease of the fetus/newborn in a murine model."
["sorttitle"]=>
string(119) "alloantibodies to a paternally derived rbc kel antigen lead to hemolytic disease of the fetus newborn in a murine model"
["volume"]=>
string(3) "122"
["issue"]=>
string(1) "8"
["pages"]=>
string(8) "1494-504"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23801629"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2013-03-488874"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2013-03-488874"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3750342"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23801629"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23801629"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3750342;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/06/27 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/06/27 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/11/06 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(32) "Blood. 2013 Aug 22;122(8):1334-5"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(23970354)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2013-03-488874"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/08/22 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[23721226]=>
array(43) {
["uid"]=>
string(8) "23721226"
["pubdate"]=>
string(8) "2013 Nov"
["epubdate"]=>
string(11) "2013 May 30"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(10) "Blacken GR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(4) "Fu X"
["title"]=>
string(69) "Resolution of translation start site for the human Kell glycoprotein."
["sorttitle"]=>
string(68) "resolution of translation start site for the human kell glycoprotein"
["volume"]=>
string(2) "53"
["issue"]=>
string(10) "11 Suppl 2"
["pages"]=>
string(6) "2882-6"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23721226"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12267"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23721226"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23721226"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/02/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/03/20 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/04/16 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/06/01 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/06/01 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/01/31 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12267"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Blacken GR"
["vernaculartitle"]=>
string(0) ""
}
[23721209]=>
array(43) {
["uid"]=>
string(8) "23721209"
["pubdate"]=>
string(8) "2014 Jan"
["epubdate"]=>
string(11) "2013 May 30"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(10) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Smith N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Johnsen JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Bell LN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(95) "Strain-specific red blood cell storage, metabolism, and eicosanoid generation in a mouse model."
["sorttitle"]=>
string(92) "strain specific red blood cell storage metabolism and eicosanoid generation in a mouse model"
["volume"]=>
string(2) "54"
["issue"]=>
string(1) "1"
["pages"]=>
string(6) "137-48"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23721209"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12264"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4284097"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS476584"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23721209"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23721209"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4284097;manuscript-id: NIHMS476584;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/01/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/02/12 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/03/11 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/06/01 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/06/01 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/03/08 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(32)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12264"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[23621760]=>
array(43) {
["uid"]=>
string(8) "23621760"
["pubdate"]=>
string(8) "2014 Jan"
["epubdate"]=>
string(11) "2013 Apr 29"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Henry KL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(122) "Transfusion of murine red blood cells expressing the human KEL glycoprotein induces clinically significant alloantibodies."
["sorttitle"]=>
string(121) "transfusion of murine red blood cells expressing the human kel glycoprotein induces clinically significant alloantibodies"
["volume"]=>
string(2) "54"
["issue"]=>
string(1) "1"
["pages"]=>
string(6) "179-89"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23621760"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12217"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3732531"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS460307"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23621760"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23621760"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3732531;manuscript-id: NIHMS460307;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2013/02/06 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2013/03/13 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2013/03/14 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/04/30 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/04/30 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2014/03/08 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(24)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12217"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2014/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[23441757]=>
array(43) {
["uid"]=>
string(8) "23441757"
["pubdate"]=>
string(8) "2013 Oct"
["epubdate"]=>
string(11) "2013 Feb 26"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(92) "On the appropriate use and interpretation of animal models in transfusion medicine research."
["sorttitle"]=>
string(91) "on the appropriate use and interpretation of animal models in transfusion medicine research"
["volume"]=>
string(2) "53"
["issue"]=>
string(2) "10"
["pages"]=>
string(6) "2334-9"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23441757"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12131"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23441757"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23441757"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/11/01 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2012/12/02 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2012/12/04 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/02/28 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/02/28 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/12/16 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(11)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12131"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/10/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[23411733]=>
array(43) {
["uid"]=>
string(8) "23411733"
["pubdate"]=>
string(11) "2013 Feb 14"
["epubdate"]=>
string(0) ""
["source"]=>
string(5) "Blood"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(60) "Location, location, location: advancing veto cell therapies."
["sorttitle"]=>
string(56) "location location location advancing veto cell therapies"
["volume"]=>
string(3) "121"
["issue"]=>
string(1) "7"
["pages"]=>
string(7) "1069-70"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23411733"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "121/7/1069"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2012-12-472654"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23411733"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23411733"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/02/16 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/02/16 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/04/06 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(32) "Blood. 2013 Feb 14;121(7):1220-8"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(23223359)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2012-12-472654"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/02/14 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[23384196]=>
array(43) {
["uid"]=>
string(8) "23384196"
["pubdate"]=>
string(8) "2013 Oct"
["epubdate"]=>
string(10) "2013 Feb 5"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(4) "Fu X"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(9) "Palmer AF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Fontes J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Banerjee U"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(8) "Yazer MH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(8) "Yazer MH"
["title"]=>
string(153) "Addition of ascorbic acid solution to stored murine red blood cells increases posttransfusion recovery and decreases microparticles and alloimmunization."
["sorttitle"]=>
string(152) "addition of ascorbic acid solution to stored murine red blood cells increases posttransfusion recovery and decreases microparticles and alloimmunization"
["volume"]=>
string(2) "53"
["issue"]=>
string(2) "10"
["pages"]=>
string(7) "2248-57"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23384196"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(17) "10.1111/trf.12106"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23384196"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23384196"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/06/13 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2012/11/12 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2012/11/16 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2013/02/07 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2013/02/07 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/12/16 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(21)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(22) "doi: 10.1111/trf.12106"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/10/01 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[23118779]=>
array(43) {
["uid"]=>
string(8) "23118779"
["pubdate"]=>
string(4) "2012"
["epubdate"]=>
string(11) "2012 Oct 16"
["source"]=>
string(16) "Clin Dev Immunol"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Winkler AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Maier CL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Arthur CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(16) "Girard-Pierce KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(11) "Cummings RD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(79) "Initiation and regulation of complement during hemolytic transfusion reactions."
["sorttitle"]=>
string(78) "initiation and regulation of complement during hemolytic transfusion reactions"
["volume"]=>
string(4) "2012"
["issue"]=>
string(0) ""
["pages"]=>
string(6) "307093"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101183692"
["issn"]=>
string(9) "1740-2522"
["essn"]=>
string(9) "1740-2530"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23118779"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(19) "10.1155/2012/307093"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3479954"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23118779"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23118779"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3479954;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/07/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2012/09/07 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/11/03 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/11/03 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/05/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(16)
["fulljournalname"]=>
string(35) "Clinical & developmental immunology"
["elocationid"]=>
string(24) "doi: 10.1155/2012/307093"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Stowell SR"
["vernaculartitle"]=>
string(0) ""
}
[23033973]=>
array(43) {
["uid"]=>
string(8) "23033973"
["pubdate"]=>
string(8) "2013 Jun"
["epubdate"]=>
string(10) "2012 Oct 3"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(12) "Liepkalns JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(114) "Resistance of a subset of red blood cells to clearance by antibodies in a mouse model of incompatible transfusion."
["sorttitle"]=>
string(113) "resistance of a subset of red blood cells to clearance by antibodies in a mouse model of incompatible transfusion"
["volume"]=>
string(2) "53"
["issue"]=>
string(1) "6"
["pages"]=>
string(7) "1319-27"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "23033973"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2012.03910.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23033973"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "23033973"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/05/16 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2012/08/10 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2012/08/15 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/10/05 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/10/05 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/08/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(11)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2012.03910.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/06/01 00:00"
["sortfirstauthor"]=>
string(12) "Liepkalns JS"
["vernaculartitle"]=>
string(0) ""
}
[22738400]=>
array(43) {
["uid"]=>
string(8) "22738400"
["pubdate"]=>
string(8) "2013 Mar"
["epubdate"]=>
string(11) "2012 Jun 28"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Jhang J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(116) "Frequency of glucose-6-phosphate dehydrogenase-deficient red blood cell units in a metropolitan transfusion service."
["sorttitle"]=>
string(115) "frequency of glucose 6 phosphate dehydrogenase deficient red blood cell units in a metropolitan transfusion service"
["volume"]=>
string(2) "53"
["issue"]=>
string(1) "3"
["pages"]=>
string(6) "606-11"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22738400"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2012.03765.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3461237"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS378772"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22738400"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22738400"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3461237;manuscript-id: NIHMS378772;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/06/29 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/06/29 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/05/01 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2012.03765.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2013/03/01 00:00"
["sortfirstauthor"]=>
string(10) "Francis RO"
["vernaculartitle"]=>
string(0) ""
}
[22733018]=>
array(43) {
["uid"]=>
string(8) "22733018"
["pubdate"]=>
string(8) "2012 Dec"
["epubdate"]=>
string(11) "2012 Jun 24"
["source"]=>
string(13) "Haematologica"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Iwakoshi NN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(94) "Partial tolerance of autoreactive B and T cells to erythrocyte-specific self-antigens in mice."
["sorttitle"]=>
string(93) "partial tolerance of autoreactive b and t cells to erythrocyte specific self antigens in mice"
["volume"]=>
string(2) "97"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "1836-44"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417435"
["issn"]=>
string(9) "0390-6078"
["essn"]=>
string(9) "1592-8721"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22733018"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "haematol.2012.065144"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.3324/haematol.2012.065144"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3590090"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22733018"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22733018"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3590090;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/06/27 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/06/27 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/12/16 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(8)
["fulljournalname"]=>
string(13) "Haematologica"
["elocationid"]=>
string(33) "doi: 10.3324/haematol.2012.065144"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/12/01 00:00"
["sortfirstauthor"]=>
string(9) "Hudson KE"
["vernaculartitle"]=>
string(0) ""
}
[22682308]=>
array(43) {
["uid"]=>
string(8) "22682308"
["pubdate"]=>
string(8) "2012 Jun"
["epubdate"]=>
string(10) "2012 Jun 6"
["source"]=>
string(18) "Transfus Clin Biol"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Johnsen JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(146) "Effects of genetic, epigenetic, and environmental factors on alloimmunization to transfused antigens: Current paradigms and future considerations."
["sorttitle"]=>
string(142) "effects of genetic epigenetic and environmental factors on alloimmunization to transfused antigens current paradigms and future considerations"
["volume"]=>
string(2) "19"
["issue"]=>
string(1) "3"
["pages"]=>
string(6) "125-31"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9423846"
["issn"]=>
string(9) "1246-7820"
["essn"]=>
string(9) "1953-8022"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22682308"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S1246-7820(12)00045-6"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.tracli.2012.03.002"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22682308"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22682308"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2012/03/22 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2012/03/24 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/06/12 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/06/12 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/01/01 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(7)
["fulljournalname"]=>
string(92) "Transfusion clinique et biologique : journal de la Societe francaise de transfusion sanguine"
["elocationid"]=>
string(33) "doi: 10.1016/j.tracli.2012.03.002"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/06/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[22679338]=>
array(43) {
["uid"]=>
string(8) "22679338"
["pubdate"]=>
string(10) "2012 Jun 7"
["epubdate"]=>
string(0) ""
["source"]=>
string(5) "Blood"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Johnsen JM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Johnsen JM"
["title"]=>
string(36) "Keeping the Kell away from immunity."
["sorttitle"]=>
string(35) "keeping the kell away from immunity"
["volume"]=>
string(3) "119"
["issue"]=>
string(2) "23"
["pages"]=>
string(6) "5346-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22679338"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(11) "119/23/5346"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2012-04-423947"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22679338"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22679338"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/06/09 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/06/09 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/08/16 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(33) "Blood. 2012 Jun 7;119(23):5563-74"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(22490333)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2012-04-423947"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/06/07 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[22502635]=>
array(43) {
["uid"]=>
string(8) "22502635"
["pubdate"]=>
string(8) "2012 Dec"
["epubdate"]=>
string(11) "2012 Apr 15"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(12) "Liepkalns JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Stowell SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(143) "Biphasic clearance of incompatible red blood cells through a novel mechanism requiring neither complement nor Fcγ receptors in a murine model."
["sorttitle"]=>
string(140) "biphasic clearance of incompatible red blood cells through a novel mechanism requiring neither complement nor fc receptors in a murine model"
["volume"]=>
string(2) "52"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "2631-45"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22502635"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2012.03647.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22502635"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22502635"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/04/17 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/04/17 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/02/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(17)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2012.03647.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/12/01 00:00"
["sortfirstauthor"]=>
string(12) "Liepkalns JS"
["vernaculartitle"]=>
string(0) ""
}
[22494154]=>
array(43) {
["uid"]=>
string(8) "22494154"
["pubdate"]=>
string(8) "2012 Dec"
["epubdate"]=>
string(11) "2012 Apr 12"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Henry KL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Bennett A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Frame T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(108) "Generation of transgenic mice with antithetical KEL1 and KEL2 human blood group antigens on red blood cells."
["sorttitle"]=>
string(107) "generation of transgenic mice with antithetical kel1 and kel2 human blood group antigens on red blood cells"
["volume"]=>
string(2) "52"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "2620-30"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22494154"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2012.03641.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3580151"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS438477"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22494154"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22494154"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3580151;manuscript-id: NIHMS438477;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/04/13 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/04/13 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/02/13 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(27)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2012.03641.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/12/01 00:00"
["sortfirstauthor"]=>
string(8) "Smith NH"
["vernaculartitle"]=>
string(0) ""
}
[22321003]=>
array(43) {
["uid"]=>
string(8) "22321003"
["pubdate"]=>
string(8) "2012 Oct"
["epubdate"]=>
string(11) "2012 Feb 10"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(9) "Gilson CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(105) "CTLA4-Ig prevents alloantibody production and BMT rejection in response to platelet transfusions in mice."
["sorttitle"]=>
string(104) "ctla4 ig prevents alloantibody production and bmt rejection in response to platelet transfusions in mice"
["volume"]=>
string(2) "52"
["issue"]=>
string(2) "10"
["pages"]=>
string(7) "2209-19"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22321003"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2011.03550.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4284104"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS345371"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22321003"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22321003"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4284104;manuscript-id: NIHMS345371;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/02/11 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/02/11 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2013/01/15 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2011.03550.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/10/01 00:00"
["sortfirstauthor"]=>
string(9) "Gilson CR"
["vernaculartitle"]=>
string(0) ""
}
[22300526]=>
array(43) {
["uid"]=>
string(8) "22300526"
["pubdate"]=>
string(8) "2012 May"
["epubdate"]=>
string(10) "2012 Feb 2"
["source"]=>
string(15) "Am J Transplant"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Kapp L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(134) "Mechanisms of alloimmunization and subsequent bone marrow transplantation rejection induced by platelet transfusion in a murine model."
["sorttitle"]=>
string(133) "mechanisms of alloimmunization and subsequent bone marrow transplantation rejection induced by platelet transfusion in a murine model"
["volume"]=>
string(2) "12"
["issue"]=>
string(1) "5"
["pages"]=>
string(7) "1102-12"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "100968638"
["issn"]=>
string(9) "1600-6135"
["essn"]=>
string(9) "1600-6143"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22300526"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1600-6143.2011.03959.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4296674"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS653313"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22300526"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22300526"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4296674;manuscript-id: NIHMS653313;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2012/02/04 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2012/02/04 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/08/29 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(8)
["fulljournalname"]=>
string(145) "American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons"
["elocationid"]=>
string(37) "doi: 10.1111/j.1600-6143.2011.03959.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/05/01 00:00"
["sortfirstauthor"]=>
string(8) "Patel SR"
["vernaculartitle"]=>
string(0) ""
}
[22077064]=>
array(43) {
["uid"]=>
string(8) "22077064"
["pubdate"]=>
string(10) "2012 Feb 9"
["epubdate"]=>
string(11) "2011 Nov 10"
["source"]=>
string(5) "Blood"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(93) "Transfusion in the absence of inflammation induces antigen-specific tolerance to murine RBCs."
["sorttitle"]=>
string(92) "transfusion in the absence of inflammation induces antigen specific tolerance to murine rbcs"
["volume"]=>
string(3) "119"
["issue"]=>
string(1) "6"
["pages"]=>
string(6) "1566-9"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22077064"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2011-09-382655"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2011-09-382655"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3286217"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22077064"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22077064"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3286217;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/11/15 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/11/15 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/04/04 06:00"
}
}
["references"]=>
array(2) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Blood. 2014 Mar 27;123(13):1182"
["reftype"]=>
string(10) "Erratum in"
["pmid"]=>
string(0) ""
["note"]=>
string(0) ""
}
[1]=>
array(4) {
["refsource"]=>
string(31) "Blood. 2012 Feb 9;119(6):1330-1"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(22323408)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(23)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2011-09-382655"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/02/09 00:00"
["sortfirstauthor"]=>
string(8) "Smith NH"
["vernaculartitle"]=>
string(0) ""
}
[22021369]=>
array(43) {
["uid"]=>
string(8) "22021369"
["pubdate"]=>
string(11) "2011 Dec 15"
["epubdate"]=>
string(11) "2011 Oct 20"
["source"]=>
string(5) "Blood"
["authors"]=>
array(16) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(13) "Brittenham GM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Billote GB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Ginzburg YZ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Jhang J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Schwartz J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(8) "Sharma S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(7) "Sheth S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(9) "Sireci AN"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(11) "Stephens HL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(10) "Stotler BA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(10) "Wojczyk BS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[14]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[15]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(143) "Transfusion of human volunteers with older, stored red blood cells produces extravascular hemolysis and circulating non-transferrin-bound iron."
["sorttitle"]=>
string(141) "transfusion of human volunteers with older stored red blood cells produces extravascular hemolysis and circulating non transferrin bound iron"
["volume"]=>
string(3) "118"
["issue"]=>
string(2) "25"
["pages"]=>
string(7) "6675-82"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(2) {
[0]=>
string(14) "Clinical Trial"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "22021369"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2011-08-371849"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2011-08-371849"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3242722"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22021369"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "22021369"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC3242722;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/10/25 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/10/25 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/03/17 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(101)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2011-08-371849"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/12/15 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[21981241]=>
array(43) {
["uid"]=>
string(8) "21981241"
["pubdate"]=>
string(8) "2012 Apr"
["epubdate"]=>
string(10) "2011 Oct 7"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(9) "Gilson CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(124) "Alloimmunization to transfused platelets requires priming of CD4+ T cells in the splenic microenvironment in a murine model."
["sorttitle"]=>
string(122) "alloimmunization to transfused platelets requires priming of cd4 t cells in the splenic microenvironment in a murine model"
["volume"]=>
string(2) "52"
["issue"]=>
string(1) "4"
["pages"]=>
string(6) "849-59"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21981241"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2011.03346.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3257367"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS316545"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21981241"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21981241"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3257367;manuscript-id: NIHMS316545;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/10/11 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/10/11 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/06/06 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2011.03346.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/04/01 00:00"
["sortfirstauthor"]=>
string(9) "Gilson CR"
["vernaculartitle"]=>
string(0) ""
}
[21884408]=>
array(43) {
["uid"]=>
string(8) "21884408"
["pubdate"]=>
string(8) "2011 Sep"
["epubdate"]=>
string(0) ""
["source"]=>
string(15) "Am J Transplant"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(11) "Desmarets M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Mylvaganam G"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Waller EK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Josephson CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(6) "Pack C"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Lukacher AE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(98) "Minor antigens on transfused RBCs crossprime CD8 T cells but do not induce full effector function."
["sorttitle"]=>
string(97) "minor antigens on transfused rbcs crossprime cd8 t cells but do not induce full effector function"
["volume"]=>
string(2) "11"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "1825-34"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "100968638"
["issn"]=>
string(9) "1600-6135"
["essn"]=>
string(9) "1600-6143"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21884408"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1600-6143.2011.03730.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC4284100"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS326653"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21884408"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21884408"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC4284100;manuscript-id: NIHMS326653;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/09/03 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/09/03 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/12/23 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(145) "American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons"
["elocationid"]=>
string(37) "doi: 10.1111/j.1600-6143.2011.03730.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/09/01 00:00"
["sortfirstauthor"]=>
string(11) "Desmarets M"
["vernaculartitle"]=>
string(0) ""
}
[21790627]=>
array(43) {
["uid"]=>
string(8) "21790627"
["pubdate"]=>
string(8) "2012 Feb"
["epubdate"]=>
string(11) "2011 Jul 25"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(11) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Perry JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Ghosh S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Chappa P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Adisa O"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Kean LS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(15) "Ofori-Acquah SF"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(9) "Archer DR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(101) "Alloimmunization to transfused HOD red blood cells is not increased in mice with sickle cell disease."
["sorttitle"]=>
string(100) "alloimmunization to transfused hod red blood cells is not increased in mice with sickle cell disease"
["volume"]=>
string(2) "52"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "231-40"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21790627"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2011.03255.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3218203"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS308553"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21790627"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21790627"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3218203;manuscript-id: NIHMS308553;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/07/28 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/07/28 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/03/06 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(33) "Transfusion. 2012 Feb;52(2):214-6"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(22239207)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(11)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2011.03255.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2012/02/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[21645005]=>
array(43) {
["uid"]=>
string(8) "21645005"
["pubdate"]=>
string(8) "2011 Dec"
["epubdate"]=>
string(10) "2011 Jun 3"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(101) "Transfusion of fresh murine red blood cells reverses adverse effects of older stored red blood cells."
["sorttitle"]=>
string(100) "transfusion of fresh murine red blood cells reverses adverse effects of older stored red blood cells"
["volume"]=>
string(2) "51"
["issue"]=>
string(2) "12"
["pages"]=>
string(8) "2695-702"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21645005"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2011.03197.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3175330"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS290954"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21645005"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21645005"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3175330;manuscript-id: NIHMS290954;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/06/08 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/06/08 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2012/02/03 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(11)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2011.03197.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/12/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[21569043]=>
array(43) {
["uid"]=>
string(8) "21569043"
["pubdate"]=>
string(8) "2011 Nov"
["epubdate"]=>
string(11) "2011 May 13"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(13) "Eisenbarth SC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Spiegel DA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Tormey CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(129) "Rapid clearance of transfused murine red blood cells is associated with recipient cytokine storm and enhanced alloimmunogenicity."
["sorttitle"]=>
string(128) "rapid clearance of transfused murine red blood cells is associated with recipient cytokine storm and enhanced alloimmunogenicity"
["volume"]=>
string(2) "51"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "2445-54"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21569043"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2011.03162.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3175302"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS290953"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21569043"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21569043"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3175302;manuscript-id: NIHMS290953;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/05/17 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/05/17 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/12/14 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2011.03162.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/11/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[21269695]=>
array(43) {
["uid"]=>
string(8) "21269695"
["pubdate"]=>
string(8) "2011 Mar"
["epubdate"]=>
string(11) "2011 Jan 26"
["source"]=>
string(11) "Mol Immunol"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Ozato K"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Morse HC 3rd"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Yoshimi R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(99) "Alloimmunization against RBC or PLT antigens is independent of TRIM21 expression in a murine model."
["sorttitle"]=>
string(98) "alloimmunization against rbc or plt antigens is independent of trim21 expression in a murine model"
["volume"]=>
string(2) "48"
["issue"]=>
string(3) "6-7"
["pages"]=>
string(6) "909-13"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7905289"
["issn"]=>
string(9) "0161-5890"
["essn"]=>
string(9) "1872-9142"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21269695"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0161-5890(11)00009-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1016/j.molimm.2010.12.017"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3090620"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS269015"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21269695"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21269695"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3090620;manuscript-id: NIHMS269015;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2010/10/26 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2010/12/21 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2010/12/23 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/01/29 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/01/29 06:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/04/06 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(6)
["fulljournalname"]=>
string(20) "Molecular immunology"
["elocationid"]=>
string(33) "doi: 10.1016/j.molimm.2010.12.017"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/03/01 00:00"
["sortfirstauthor"]=>
string(8) "Patel SR"
["vernaculartitle"]=>
string(0) ""
}
[21251006]=>
array(43) {
["uid"]=>
string(8) "21251006"
["pubdate"]=>
string(8) "2011 Feb"
["epubdate"]=>
string(11) "2011 Jan 20"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Welniak L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Semple JW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Ness PM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Slichter SJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(37) "NHLBI Alloimmunization Working Group."
["authtype"]=>
string(14) "CollectiveName"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(114) "Current problems and future directions of transfusion-induced alloimmunization: summary of an NHLBI working group."
["sorttitle"]=>
string(112) "current problems and future directions of transfusion induced alloimmunization summary of an nhlbi working group"
["volume"]=>
string(2) "51"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "435-41"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(9) "Guideline"
[1]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "21251006"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2010.03024.x"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC7003556"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(12) "NIHMS1066629"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21251006"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "21251006"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(47) "pmc-id: PMC7003556;manuscript-id: NIHMS1066629;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2011/01/22 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2011/01/22 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/04/05 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(21)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2010.03024.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2011/02/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[20546207]=>
array(43) {
["uid"]=>
string(8) "20546207"
["pubdate"]=>
string(8) "2010 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(8) "Vox Sang"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(9) "Gilson CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Smith NH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(85) "MHC II on transfused murine blood is not required for alloimmunization against MHC I."
["sorttitle"]=>
string(84) "mhc ii on transfused murine blood is not required for alloimmunization against mhc i"
["volume"]=>
string(2) "99"
["issue"]=>
string(1) "4"
["pages"]=>
string(6) "369-74"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413606"
["issn"]=>
string(9) "0042-9007"
["essn"]=>
string(9) "1423-0410"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20546207"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "VOX1351"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1423-0410.2010.01351.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2955847"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS211299"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20546207"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20546207"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2955847;manuscript-id: NIHMS211299;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2010/06/16 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2010/06/16 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/02/01 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(13) "Vox sanguinis"
["elocationid"]=>
string(37) "doi: 10.1111/j.1423-0410.2010.01351.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/11/01 00:00"
["sortfirstauthor"]=>
string(9) "Gilson CR"
["vernaculartitle"]=>
string(0) ""
}
[20513564]=>
array(43) {
["uid"]=>
string(8) "20513564"
["pubdate"]=>
string(8) "2010 Jun"
["epubdate"]=>
string(10) "2010 May 6"
["source"]=>
string(12) "Clin Lab Med"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(91) "Recent developments and future directions of alloimmunization to transfused blood products."
["sorttitle"]=>
string(90) "recent developments and future directions of alloimmunization to transfused blood products"
["volume"]=>
string(2) "30"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "467-73"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8100174"
["issn"]=>
string(9) "0272-2712"
["essn"]=>
string(9) "1557-9832"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20513564"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0272-2712(10)00018-1"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.cll.2010.02.012"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20513564"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20513564"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2010/06/02 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2010/06/02 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2010/09/03 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(30) "Clinics in laboratory medicine"
["elocationid"]=>
string(30) "doi: 10.1016/j.cll.2010.02.012"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/06/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[20345515]=>
array(43) {
["uid"]=>
string(8) "20345515"
["pubdate"]=>
string(10) "2010 Aug 1"
["epubdate"]=>
string(11) "2010 Mar 21"
["source"]=>
string(8) "Vox Sang"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Arinsburg SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(78) "Use of mouse models to study the mechanisms and consequences of RBC clearance."
["sorttitle"]=>
string(77) "use of mouse models to study the mechanisms and consequences of rbc clearance"
["volume"]=>
string(2) "99"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "99-111"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413606"
["issn"]=>
string(9) "0042-9007"
["essn"]=>
string(9) "1423-0410"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20345515"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "VOX1327"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1423-0410.2010.01327.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3580149"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS438476"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20345515"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20345515"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3580149;manuscript-id: NIHMS438476;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2010/03/30 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2010/03/30 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2010/12/14 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(13) "Vox sanguinis"
["elocationid"]=>
string(37) "doi: 10.1111/j.1423-0410.2010.01327.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/08/01 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[20299509]=>
array(43) {
["uid"]=>
string(8) "20299509"
["pubdate"]=>
string(11) "2010 May 27"
["epubdate"]=>
string(11) "2010 Mar 18"
["source"]=>
string(5) "Blood"
["authors"]=>
array(14) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Zhang N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Sokol SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Wojczyk BS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Francis RO"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Ansaldi D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Francis KP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(13) "Della-Latta P"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(10) "Whittier S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[9]=>
array(3) {
["name"]=>
string(7) "Sheth S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[10]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[11]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[12]=>
array(3) {
["name"]=>
string(13) "Brittenham GM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[13]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(123) "Transfusion of red blood cells after prolonged storage produces harmful effects that are mediated by iron and inflammation."
["sorttitle"]=>
string(122) "transfusion of red blood cells after prolonged storage produces harmful effects that are mediated by iron and inflammation"
["volume"]=>
string(3) "115"
["issue"]=>
string(2) "21"
["pages"]=>
string(7) "4284-92"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20299509"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2009-10-245001"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2009-10-245001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2879099"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20299509"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20299509"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2879099;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2010/03/20 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2010/03/20 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2010/06/18 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(164)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2009-10-245001"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/05/27 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[20086249]=>
array(43) {
["uid"]=>
string(8) "20086249"
["pubdate"]=>
string(11) "2010 May 13"
["epubdate"]=>
string(11) "2010 Jan 19"
["source"]=>
string(5) "Blood"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(9) "Hudson KE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(5) "Lin E"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Lukacher AE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(102) "Regulation of primary alloantibody response through antecedent exposure to a microbial T-cell epitope."
["sorttitle"]=>
string(101) "regulation of primary alloantibody response through antecedent exposure to a microbial t cell epitope"
["volume"]=>
string(3) "115"
["issue"]=>
string(2) "19"
["pages"]=>
string(7) "3989-96"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "20086249"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2009-08-238568"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2009-08-238568"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2869558"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20086249"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "20086249"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2869558;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2010/01/21 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2010/01/21 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2010/06/02 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(18)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2009-08-238568"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/05/13 00:00"
["sortfirstauthor"]=>
string(9) "Hudson KE"
["vernaculartitle"]=>
string(0) ""
}
[19906034]=>
array(43) {
["uid"]=>
string(8) "19906034"
["pubdate"]=>
string(8) "2010 Mar"
["epubdate"]=>
string(10) "2009 Nov 9"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(105) "Storage of murine red blood cells enhances alloantibody responses to an erythroid-specific model antigen."
["sorttitle"]=>
string(104) "storage of murine red blood cells enhances alloantibody responses to an erythroid specific model antigen"
["volume"]=>
string(2) "50"
["issue"]=>
string(1) "3"
["pages"]=>
string(5) "642-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19906034"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "TRF2481"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2009.02481.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3568949"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS438474"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19906034"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19906034"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3568949;manuscript-id: NIHMS438474;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/11/13 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/11/13 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2010/07/28 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(20)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2009.02481.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2010/03/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[19735500]=>
array(43) {
["uid"]=>
string(8) "19735500"
["pubdate"]=>
string(8) "2009 Sep"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(84) "To RBC or not to RBC: the role of suicidal death in hemolytic transfusion reactions."
["sorttitle"]=>
string(82) "to rbc or not to rbc the role of suicidal death in hemolytic transfusion reactions"
["volume"]=>
string(2) "49"
["issue"]=>
string(1) "9"
["pages"]=>
string(6) "1776-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(9) "Editorial"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19735500"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "TRF2339"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2009.02339.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19735500"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19735500"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/09/09 06:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/09/09 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/09/24 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Transfusion. 2009 Sep;49(9):1785-92"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(19413729)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
int(2)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2009.02339.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/09/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[19726874]=>
array(43) {
["uid"]=>
string(8) "19726874"
["pubdate"]=>
string(8) "2009 Sep"
["epubdate"]=>
string(11) "2009 Aug 10"
["source"]=>
string(13) "J Clin Invest"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(8) "Patel SR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Medford A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(122) "Transfusion of minor histocompatibility antigen-mismatched platelets induces rejection of bone marrow transplants in mice."
["sorttitle"]=>
string(121) "transfusion of minor histocompatibility antigen mismatched platelets induces rejection of bone marrow transplants in mice"
["volume"]=>
string(3) "119"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "2787-94"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7802877"
["issn"]=>
string(9) "0021-9738"
["essn"]=>
string(9) "1558-8238"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19726874"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(5) "39590"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(16) "10.1172/JCI39590"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2735899"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19726874"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19726874"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2735899;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2009/04/17 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2009/06/10 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/09/04 06:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/09/04 06:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/10/03 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(19)
["fulljournalname"]=>
string(37) "The Journal of clinical investigation"
["elocationid"]=>
string(21) "doi: 10.1172/JCI39590"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/09/01 00:00"
["sortfirstauthor"]=>
string(8) "Patel SR"
["vernaculartitle"]=>
string(0) ""
}
[19573176]=>
array(43) {
["uid"]=>
string(8) "19573176"
["pubdate"]=>
string(8) "2009 Aug"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(9) "Gilson CR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Kraus TS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Shaz BH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(83) "A novel mouse model of red blood cell storage and posttransfusion in vivo survival."
["sorttitle"]=>
string(80) "novel mouse model of red blood cell storage and posttransfusion in vivo survival"
["volume"]=>
string(2) "49"
["issue"]=>
string(1) "8"
["pages"]=>
string(7) "1546-53"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19573176"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF02173"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2009.02173.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2888981"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS102789"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19573176"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19573176"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC2888981;manuscript-id: NIHMS102789;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/07/04 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/07/04 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/04/22 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Transfusion. 2009 Aug;49(8):1528-31"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(19732402)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(55)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2009.02173.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/08/01 00:00"
["sortfirstauthor"]=>
string(9) "Gilson CR"
["vernaculartitle"]=>
string(0) ""
}
[19539874]=>
array(43) {
["uid"]=>
string(8) "19539874"
["pubdate"]=>
string(8) "2009 Jul"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(50) "Antigen loss from antibody-coated red blood cells."
["sorttitle"]=>
string(49) "antigen loss from antibody coated red blood cells"
["volume"]=>
string(2) "23"
["issue"]=>
string(1) "3"
["pages"]=>
string(7) "189-204"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19539874"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(09)00028-5"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2009.03.002"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19539874"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19539874"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/06/23 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/06/23 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/08/26 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(13)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(31) "doi: 10.1016/j.tmrv.2009.03.002"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/07/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[19525479]=>
array(43) {
["uid"]=>
string(8) "19525479"
["pubdate"]=>
string(11) "2009 Sep 10"
["epubdate"]=>
string(11) "2009 Jun 12"
["source"]=>
string(5) "Blood"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(11) "Desmarets M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Peterson KR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Neades R"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(143) "Minor histocompatibility antigens on transfused leukoreduced units of red blood cells induce bone marrow transplant rejection in a mouse model."
["sorttitle"]=>
string(142) "minor histocompatibility antigens on transfused leukoreduced units of red blood cells induce bone marrow transplant rejection in a mouse model"
["volume"]=>
string(3) "114"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "2315-22"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19525479"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2009-04-214387"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2009-04-214387"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2745850"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19525479"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19525479"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2745850;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/06/16 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/06/16 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/09/30 06:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Blood. 2009 Sep 10;114(11):2209-10"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(19745073)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(50)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2009-04-214387"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/09/10 00:00"
["sortfirstauthor"]=>
string(11) "Desmarets M"
["vernaculartitle"]=>
string(0) ""
}
[19413728]=>
array(43) {
["uid"]=>
string(8) "19413728"
["pubdate"]=>
string(8) "2009 Aug"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Saakadze N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Upton JW"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Mocarski ES"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(103) "The spleen plays a central role in primary humoral alloimmunization to transfused mHEL red blood cells."
["sorttitle"]=>
string(98) "spleen plays a central role in primary humoral alloimmunization to transfused mhel red blood cells"
["volume"]=>
string(2) "49"
["issue"]=>
string(1) "8"
["pages"]=>
string(7) "1678-84"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19413728"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF02200"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2009.02200.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC3568957"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(11) "NIHMS438472"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19413728"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19413728"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(46) "pmc-id: PMC3568957;manuscript-id: NIHMS438472;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/05/06 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/05/06 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2011/04/22 06:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2009.02200.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/08/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[19309468]=>
array(43) {
["uid"]=>
string(8) "19309468"
["pubdate"]=>
string(8) "2009 Jun"
["epubdate"]=>
string(11) "2009 Feb 27"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(8) "Yazer MH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Triulzi DJ"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(6) "Shaz B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Kraus T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(94) "Does a febrile reaction to platelets predispose recipients to red blood cell alloimmunization?"
["sorttitle"]=>
string(93) "does a febrile reaction to platelets predispose recipients to red blood cell alloimmunization"
["volume"]=>
string(2) "49"
["issue"]=>
string(1) "6"
["pages"]=>
string(6) "1070-5"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19309468"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF02116"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2009.02116.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19309468"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19309468"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/03/25 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/03/25 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/08/12 09:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(34) "Transfusion. 2009 Jun;49(6):1032-6"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(19638152)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(17)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2009.02116.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/06/01 00:00"
["sortfirstauthor"]=>
string(8) "Yazer MH"
["vernaculartitle"]=>
string(0) ""
}
[19170996]=>
array(43) {
["uid"]=>
string(8) "19170996"
["pubdate"]=>
string(8) "2009 Apr"
["epubdate"]=>
string(10) "2009 Jan 2"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(7) "Bosco A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Xenocostas A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Kinney J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(69) "An autoanti-Kp b immunoglobulin M that simulates antigen suppression."
["sorttitle"]=>
string(65) "autoanti kp b immunoglobulin m that simulates antigen suppression"
["volume"]=>
string(2) "49"
["issue"]=>
string(1) "4"
["pages"]=>
string(5) "750-6"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19170996"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF02045"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2008.02045.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19170996"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19170996"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2009/01/28 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2009/01/28 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/05/02 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2008.02045.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/04/01 00:00"
["sortfirstauthor"]=>
string(7) "Bosco A"
["vernaculartitle"]=>
string(0) ""
}
[19056031]=>
array(43) {
["uid"]=>
string(8) "19056031"
["pubdate"]=>
string(8) "2009 Jan"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(12) "Lögdberg LE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Vikulina T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(55) "Animal models of transfusion-related acute lung injury."
["sorttitle"]=>
string(54) "animal models of transfusion related acute lung injury"
["volume"]=>
string(2) "23"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "13-24"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "19056031"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(08)00070-9"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2008.09.002"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19056031"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "19056031"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/12/06 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/07/01 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/12/06 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(31) "doi: 10.1016/j.tmrv.2008.09.002"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/01/01 00:00"
["sortfirstauthor"]=>
string(12) "Lögdberg LE"
["vernaculartitle"]=>
string(0) ""
}
[18832936]=>
array(43) {
["uid"]=>
string(8) "18832936"
["pubdate"]=>
string(8) "2008 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(17) "Curr Opin Hematol"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(14) "Hendrickson JE"
["title"]=>
string(87) "The role of inflammation in alloimmunization to antigens on transfused red blood cells."
["sorttitle"]=>
string(82) "role of inflammation in alloimmunization to antigens on transfused red blood cells"
["volume"]=>
string(2) "15"
["issue"]=>
string(1) "6"
["pages"]=>
string(5) "631-5"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9430802"
["issn"]=>
string(9) "1065-6251"
["essn"]=>
string(9) "1531-7048"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18832936"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1097/MOH.0b013e328313695e"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "00062752-200811000-00014"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18832936"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18832936"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/10/04 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/03/25 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/10/04 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(18)
["fulljournalname"]=>
string(29) "Current opinion in hematology"
["elocationid"]=>
string(33) "doi: 10.1097/MOH.0b013e328313695e"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[18832931]=>
array(43) {
["uid"]=>
string(8) "18832931"
["pubdate"]=>
string(8) "2008 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(17) "Curr Opin Hematol"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(69) "Lessons learned from mouse models of hemolytic transfusion reactions."
["sorttitle"]=>
string(68) "lessons learned from mouse models of hemolytic transfusion reactions"
["volume"]=>
string(2) "15"
["issue"]=>
string(1) "6"
["pages"]=>
string(5) "601-5"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9430802"
["issn"]=>
string(9) "1065-6251"
["essn"]=>
string(9) "1531-7048"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18832931"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1097/MOH.0b013e328311f40a"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "00062752-200811000-00009"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2646405"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS94557"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18832931"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18832931"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2646405;manuscript-id: NIHMS94557;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/10/04 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/03/25 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/10/04 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(3)
["fulljournalname"]=>
string(29) "Current opinion in hematology"
["elocationid"]=>
string(33) "doi: 10.1097/MOH.0b013e328311f40a"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/11/01 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[18830382]=>
array(43) {
["uid"]=>
string(8) "18830382"
["pubdate"]=>
string(4) "2009"
["epubdate"]=>
string(11) "2008 May 30"
["source"]=>
string(21) "Int J Clin Exp Pathol"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(8) "Sokol SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(89) "Hypothesis: hemolytic transfusion reactions represent an alternative type of anaphylaxis."
["sorttitle"]=>
string(87) "hypothesis hemolytic transfusion reactions represent an alternative type of anaphylaxis"
["volume"]=>
string(1) "2"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "71-82"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(9) "101480565"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1936-2625"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(6) "PubMed"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18830382"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2491388"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18830382"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18830382"
}
[4]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2491388;"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2008/05/15 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2008/05/30 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/10/03 09:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2008/10/03 09:01"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/10/03 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(60) "International journal of clinical and experimental pathology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2009/01/01 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[18572096]=>
array(43) {
["uid"]=>
string(8) "18572096"
["pubdate"]=>
string(8) "2008 Jul"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(7) "Shaz BH"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Demmons DG"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(83) "Blood donation and blood transfusion: special considerations for African Americans."
["sorttitle"]=>
string(81) "blood donation and blood transfusion special considerations for african americans"
["volume"]=>
string(2) "22"
["issue"]=>
string(1) "3"
["pages"]=>
string(6) "202-14"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18572096"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(08)00014-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2008.02.006"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18572096"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18572096"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/06/24 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2009/09/04 06:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/06/24 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(12)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(31) "doi: 10.1016/j.tmrv.2008.02.006"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/07/01 00:00"
["sortfirstauthor"]=>
string(7) "Shaz BH"
["vernaculartitle"]=>
string(0) ""
}
[18564394]=>
array(43) {
["uid"]=>
string(8) "18564394"
["pubdate"]=>
string(8) "2008 Sep"
["epubdate"]=>
string(11) "2008 Jun 28"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Easley KA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(113) "Discrete Toll-like receptor agonists have differential effects on alloimmunization to transfused red blood cells."
["sorttitle"]=>
string(112) "discrete toll like receptor agonists have differential effects on alloimmunization to transfused red blood cells"
["volume"]=>
string(2) "48"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "1869-77"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18564394"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF01801"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2008.01801.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18564394"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18564394"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/06/20 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2008/12/30 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/06/20 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(16)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(37) "doi: 10.1111/j.1537-2995.2008.01801.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/09/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[18483395]=>
array(43) {
["uid"]=>
string(8) "18483395"
["pubdate"]=>
string(10) "2008 Aug 1"
["epubdate"]=>
string(11) "2008 May 15"
["source"]=>
string(5) "Blood"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(6) "Hod EA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Liepkalns JS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Sokol SA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Schirmer DA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Jhang J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Spitalnik SL"
["title"]=>
string(80) "Cytokine storm in a mouse model of IgG-mediated hemolytic transfusion reactions."
["sorttitle"]=>
string(79) "cytokine storm in a mouse model of igg mediated hemolytic transfusion reactions"
["volume"]=>
string(3) "112"
["issue"]=>
string(1) "3"
["pages"]=>
string(5) "891-4"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18483395"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2008-01-132092"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2008-01-132092"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2481546"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18483395"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18483395"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(19) "pmc-id: PMC2481546;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/05/17 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2008/09/06 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/05/17 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(17)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(33) "doi: 10.1182/blood-2008-01-132092"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/08/01 00:00"
["sortfirstauthor"]=>
string(6) "Hod EA"
["vernaculartitle"]=>
string(0) ""
}
[18466159]=>
array(43) {
["uid"]=>
string(8) "18466159"
["pubdate"]=>
string(8) "2008 Aug"
["epubdate"]=>
string(10) "2008 May 5"
["source"]=>
string(8) "Vox Sang"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(122) "Cross-linking induces non-haemolytic antigen-loss from transfused red blood cells: a potential role for rheumatoid factor."
["sorttitle"]=>
string(120) "cross linking induces non haemolytic antigen loss from transfused red blood cells a potential role for rheumatoid factor"
["volume"]=>
string(2) "95"
["issue"]=>
string(1) "2"
["pages"]=>
string(6) "159-62"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0413606"
["issn"]=>
string(9) "0042-9007"
["essn"]=>
string(9) "1423-0410"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "18466159"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(7) "VOX1066"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1423-0410.2008.01066.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18466159"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "18466159"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2008/05/10 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2008/10/09 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2008/05/10 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(13) "Vox sanguinis"
["elocationid"]=>
string(37) "doi: 10.1111/j.1423-0410.2008.01066.x"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2008/08/01 00:00"
["sortfirstauthor"]=>
string(10) "Cadwell CM"
["vernaculartitle"]=>
string(0) ""
}
[17960129]=>
array(43) {
["uid"]=>
string(8) "17960129"
["pubdate"]=>
string(10) "2007 Oct 5"
["epubdate"]=>
string(10) "2007 Oct 5"
["source"]=>
string(7) "Mol Vis"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(11) "Wajchman JR"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Lake JP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(5) "Wen J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Kapp JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Kapp JA"
["title"]=>
string(86) "Ovalbumin serves as a neo-transplantation antigen in retinal pigment epithelial cells."
["sorttitle"]=>
string(85) "ovalbumin serves as a neo transplantation antigen in retinal pigment epithelial cells"
["volume"]=>
string(2) "13"
["issue"]=>
string(0) ""
["pages"]=>
string(7) "1902-11"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "9605351"
["issn"]=>
string(0) ""
["essn"]=>
string(9) "1090-0535"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "3"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17960129"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "v13/a214"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17960129"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17960129"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/10/26 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/12/06 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/10/26 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(16) "Molecular vision"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/10/05 00:00"
["sortfirstauthor"]=>
string(11) "Wajchman JR"
["vernaculartitle"]=>
string(0) ""
}
[17764514]=>
array(43) {
["uid"]=>
string(8) "17764514"
["pubdate"]=>
string(8) "2007 Dec"
["epubdate"]=>
string(11) "2007 Aug 30"
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(111) "Transfusion-induced autoantibodies and differential immunogenicity of blood group antigens: a novel hypothesis."
["sorttitle"]=>
string(109) "transfusion induced autoantibodies and differential immunogenicity of blood group antigens a novel hypothesis"
["volume"]=>
string(2) "47"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "2189-96"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17764514"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF01468"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2007.01468.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17764514"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17764514"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/09/04 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2008/06/07 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/09/04 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(9)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/12/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[17591943]=>
array(43) {
["uid"]=>
string(8) "17591943"
["pubdate"]=>
string(10) "2007 Oct 1"
["epubdate"]=>
string(11) "2007 Jun 25"
["source"]=>
string(5) "Blood"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Chadwick TE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(97) "Inflammation enhances consumption and presentation of transfused RBC antigens by dendritic cells."
["sorttitle"]=>
string(96) "inflammation enhances consumption and presentation of transfused rbc antigens by dendritic cells"
["volume"]=>
string(3) "110"
["issue"]=>
string(1) "7"
["pages"]=>
string(7) "2736-43"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17591943"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2007-03-083105"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2007-03-083105"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17591943"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17591943"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/06/27 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/11/07 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/06/27 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(47)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/10/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[17569819]=>
array(43) {
["uid"]=>
string(8) "17569819"
["pubdate"]=>
string(11) "2007 Sep 15"
["epubdate"]=>
string(11) "2007 Jun 14"
["source"]=>
string(5) "Blood"
["authors"]=>
array(8) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Cadwell CM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Chadwick TE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Spitalnik SL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Schirmer DA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(4) "Wu T"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Parkos CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(130) "Nonhemolytic antigen loss from red blood cells requires cooperative binding of multiple antibodies recognizing different epitopes."
["sorttitle"]=>
string(129) "nonhemolytic antigen loss from red blood cells requires cooperative binding of multiple antibodies recognizing different epitopes"
["volume"]=>
string(3) "110"
["issue"]=>
string(1) "6"
["pages"]=>
string(6) "2201-8"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17569819"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(20) "blood-2007-04-083097"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(28) "10.1182/blood-2007-04-083097"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17569819"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17569819"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/06/16 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/10/31 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/06/16 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(15)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/09/15 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[17286988]=>
array(43) {
["uid"]=>
string(8) "17286988"
["pubdate"]=>
string(11) "2007 May 30"
["epubdate"]=>
string(11) "2007 Jan 13"
["source"]=>
string(8) "Life Sci"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(7) "Vezys V"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Masopust D"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Desmarets M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Wess J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(135) "Analysis of CD8+ T cell-mediated anti-viral responses in mice with targeted deletions of the M1 or M5 muscarinic cholinergic receptors."
["sorttitle"]=>
string(133) "analysis of cd8 t cell mediated anti viral responses in mice with targeted deletions of the m1 or m5 muscarinic cholinergic receptors"
["volume"]=>
string(2) "80"
["issue"]=>
string(5) "24-25"
["pages"]=>
string(6) "2330-3"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0375521"
["issn"]=>
string(9) "0024-3205"
["essn"]=>
string(9) "1879-0631"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(8) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17286988"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0024-3205(07)00032-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.lfs.2007.01.001"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(10) "PMC2034436"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "mid"
["idtypen"]=>
int(8)
["value"]=>
string(10) "NIHMS25500"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17286988"
}
[6]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17286988"
}
[7]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(45) "pmc-id: PMC2034436;manuscript-id: NIHMS25500;"
}
}
["history"]=>
array(6) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2006/10/31 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "revised"
["date"]=>
string(16) "2006/11/29 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2007/01/05 00:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/02/09 09:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/08/02 09:00"
}
[5]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/02/09 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(13) "Life sciences"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/05/30 00:00"
["sortfirstauthor"]=>
string(7) "Vezys V"
["vernaculartitle"]=>
string(0) ""
}
[17258125]=>
array(43) {
["uid"]=>
string(8) "17258125"
["pubdate"]=>
string(8) "2007 Feb"
["epubdate"]=>
string(0) ""
["source"]=>
string(27) "Hematol Oncol Clin North Am"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(11) "Sheppard CA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(12) "Lögdberg LE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(38) "Transfusion-related acute lung injury."
["sorttitle"]=>
string(37) "transfusion related acute lung injury"
["volume"]=>
string(2) "21"
["issue"]=>
string(1) "1"
["pages"]=>
string(6) "163-76"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709473"
["issn"]=>
string(9) "0889-8588"
["essn"]=>
string(9) "1558-1977"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17258125"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0889-8588(06)00195-X"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(25) "10.1016/j.hoc.2006.11.011"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17258125"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17258125"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2007/01/30 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/03/24 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2007/01/30 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(44) "Hematology/oncology clinics of North America"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/02/01 00:00"
["sortfirstauthor"]=>
string(11) "Sheppard CA"
["vernaculartitle"]=>
string(0) ""
}
[17174218]=>
array(43) {
["uid"]=>
string(8) "17174218"
["pubdate"]=>
string(8) "2007 Jan"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Transfus Med Rev"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(4) "Su L"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Hillyer CD"
["title"]=>
string(69) "Transfusion-transmitted cytomegalovirus: lessons from a murine model."
["sorttitle"]=>
string(67) "transfusion transmitted cytomegalovirus lessons from a murine model"
["volume"]=>
string(2) "21"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "26-36"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8709027"
["issn"]=>
string(9) "0887-7963"
["essn"]=>
string(9) "1532-9496"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "17174218"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0887-7963(06)00058-7"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1016/j.tmrv.2006.08.005"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17174218"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "17174218"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2006/12/19 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2007/02/22 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2006/12/19 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(28) "Transfusion medicine reviews"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2007/01/01 00:00"
["sortfirstauthor"]=>
string(9) "Roback JD"
["vernaculartitle"]=>
string(0) ""
}
[16965580]=>
array(43) {
["uid"]=>
string(8) "16965580"
["pubdate"]=>
string(8) "2006 Sep"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(14) "Hendrickson JE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Desmarets M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Deshpande SS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(11) "Chadwick TE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(105) "Recipient inflammation affects the frequency and magnitude of immunization to transfused red blood cells."
["sorttitle"]=>
string(104) "recipient inflammation affects the frequency and magnitude of immunization to transfused red blood cells"
["volume"]=>
string(2) "46"
["issue"]=>
string(1) "9"
["pages"]=>
string(7) "1526-36"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "16965580"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF00946"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.1537-2995.2006.00946.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16965580"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16965580"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2006/09/13 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2006/10/18 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2006/09/13 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(51)
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2006/09/01 00:00"
["sortfirstauthor"]=>
string(14) "Hendrickson JE"
["vernaculartitle"]=>
string(0) ""
}
[16707366]=>
array(43) {
["uid"]=>
string(8) "16707366"
["pubdate"]=>
string(8) "2006 May"
["epubdate"]=>
string(0) ""
["source"]=>
string(16) "Am J Clin Pathol"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(7) "Hill CE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Harris SB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(9) "Culler EE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Nolte FS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(11) "Caliendo AM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(11) "Caliendo AM"
["title"]=>
string(105) "Performance characteristics of two real-time PCR assays for the quantification of Epstein-Barr virus DNA."
["sorttitle"]=>
string(104) "performance characteristics of two real time pcr assays for the quantification of epstein barr virus dna"
["volume"]=>
string(3) "125"
["issue"]=>
string(1) "5"
["pages"]=>
string(6) "665-71"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0370470"
["issn"]=>
string(9) "0002-9173"
["essn"]=>
string(9) "1943-7722"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "16707366"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(16) "ABEYV2VKE6DHXAAA"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1309/ABEY-V2VK-E6DH-XAAA"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16707366"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16707366"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2006/05/19 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2006/05/31 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2006/05/19 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(38) "American journal of clinical pathology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2006/05/01 00:00"
["sortfirstauthor"]=>
string(7) "Hill CE"
["vernaculartitle"]=>
string(0) ""
}
[16421482]=>
array(43) {
["uid"]=>
string(8) "16421482"
["pubdate"]=>
string(11) "2006 Jan 15"
["epubdate"]=>
string(0) ""
["source"]=>
string(15) "Transplantation"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(11) "Anderson KM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(98) "Rapamycin prolongs susceptibility of responding T cells to tolerance induction by CD8+ veto cells."
["sorttitle"]=>
string(96) "rapamycin prolongs susceptibility of responding t cells to tolerance induction by cd8 veto cells"
["volume"]=>
string(2) "81"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "88-94"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0132144"
["issn"]=>
string(9) "0041-1337"
["essn"]=>
string(9) "1534-6080"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "16421482"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "00007890-200601150-00016"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(33) "10.1097/01.tp.0000185302.38890.6b"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16421482"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16421482"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2006/01/20 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2006/02/17 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2006/01/20 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(15) "Transplantation"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2006/01/15 00:00"
["sortfirstauthor"]=>
string(11) "Anderson KM"
["vernaculartitle"]=>
string(0) ""
}
[16123213]=>
array(43) {
["uid"]=>
string(8) "16123213"
["pubdate"]=>
string(10) "2006 Jan 1"
["epubdate"]=>
string(11) "2005 Aug 25"
["source"]=>
string(5) "Blood"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Hair GA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Deshpande SS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(8) "Horan JT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(8) "Horan JT"
["title"]=>
string(126) "Immunization to minor histocompatibility antigens on transfused RBCs through crosspriming into recipient MHC class I pathways."
["sorttitle"]=>
string(125) "immunization to minor histocompatibility antigens on transfused rbcs through crosspriming into recipient mhc class i pathways"
["volume"]=>
string(3) "107"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "187-9"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "16123213"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "2005-07-3059"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1182/blood-2005-07-3059"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16123213"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "16123213"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2005/08/27 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2006/01/24 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2005/08/27 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(8)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2006/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15913791]=>
array(43) {
["uid"]=>
string(8) "15913791"
["pubdate"]=>
string(8) "2005 Jul"
["epubdate"]=>
string(0) ""
["source"]=>
string(14) "J Neuroimmunol"
["authors"]=>
array(5) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(8) "Yamada M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(6) "Wess J"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(7) "Kapp JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Kapp JA"
["title"]=>
string(83) "Regulation of CD8+ cytolytic T lymphocyte differentiation by a cholinergic pathway."
["sorttitle"]=>
string(81) "regulation of cd8 cytolytic t lymphocyte differentiation by a cholinergic pathway"
["volume"]=>
string(3) "164"
["issue"]=>
string(3) "1-2"
["pages"]=>
string(5) "66-75"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8109498"
["issn"]=>
string(9) "0165-5728"
["essn"]=>
string(9) "1872-8421"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15913791"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(21) "S0165-5728(05)00121-9"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(30) "10.1016/j.jneuroim.2005.03.018"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15913791"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15913791"
}
}
["history"]=>
array(5) {
[0]=>
array(2) {
["pubstatus"]=>
string(8) "received"
["date"]=>
string(16) "2005/02/19 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(8) "accepted"
["date"]=>
string(16) "2005/03/18 00:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2005/05/26 09:00"
}
[3]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2005/08/23 09:00"
}
[4]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2005/05/26 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(17)
["fulljournalname"]=>
string(26) "Journal of neuroimmunology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2005/07/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15831698]=>
array(43) {
["uid"]=>
string(8) "15831698"
["pubdate"]=>
string(10) "2005 Aug 1"
["epubdate"]=>
string(11) "2005 Apr 14"
["source"]=>
string(5) "Blood"
["authors"]=>
array(7) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Hair GA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Chadwick TE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Deshpande SS"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(11) "Anderson KM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Roback JD"
["title"]=>
string(66) "Nonhemolytic antibody-induced loss of erythrocyte surface antigen."
["sorttitle"]=>
string(65) "nonhemolytic antibody induced loss of erythrocyte surface antigen"
["volume"]=>
string(3) "106"
["issue"]=>
string(1) "3"
["pages"]=>
string(7) "1105-12"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "7603509"
["issn"]=>
string(9) "0006-4971"
["essn"]=>
string(9) "1528-0020"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(3) "256"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15831698"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(12) "2005-03-1040"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(26) "10.1182/blood-2005-03-1040"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15831698"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15831698"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2005/04/16 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2005/09/22 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2005/04/16 09:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(31) "Blood. 2007 May 15;109(10):4590"
["reftype"]=>
string(10) "Comment in"
["pmid"]=>
int(17483302)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(24)
["fulljournalname"]=>
string(5) "Blood"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2005/08/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15591947]=>
array(43) {
["uid"]=>
string(8) "15591947"
["pubdate"]=>
string(11) "2004 Dec 15"
["epubdate"]=>
string(0) ""
["source"]=>
string(15) "Transplantation"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Chadwick TE"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Hillyer CD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Roback JD"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Roback JD"
["title"]=>
string(75) "Effect of mediators of innate immunity and inflammation on CD8+ veto cells."
["sorttitle"]=>
string(73) "effect of mediators of innate immunity and inflammation on cd8 veto cells"
["volume"]=>
string(2) "78"
["issue"]=>
string(2) "11"
["pages"]=>
string(8) "1597-600"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0132144"
["issn"]=>
string(9) "0041-1337"
["essn"]=>
string(9) "1534-6080"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15591947"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(24) "00007890-200412150-00005"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(33) "10.1097/01.tp.0000144322.48212.14"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15591947"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15591947"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2004/12/14 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2004/12/31 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2004/12/14 09:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(1)
["fulljournalname"]=>
string(15) "Transplantation"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2004/12/15 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15504157]=>
array(43) {
["uid"]=>
string(8) "15504157"
["pubdate"]=>
string(8) "2004 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Transfusion"
["authors"]=>
array(1) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(10) "Zimring JC"
["title"]=>
string(81) "Appropriate use of recombinant factor VIIa: an expanding and unanswered question."
["sorttitle"]=>
string(79) "appropriate use of recombinant factor viia an expanding and unanswered question"
["volume"]=>
string(2) "44"
["issue"]=>
string(2) "11"
["pages"]=>
string(6) "1544-6"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0417360"
["issn"]=>
string(9) "0041-1132"
["essn"]=>
string(9) "1537-2995"
["pubtype"]=>
array(2) {
[0]=>
string(7) "Comment"
[1]=>
string(9) "Editorial"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15504157"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(8) "TRF44112"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1111/j.0041-1132.2004.44112.x"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15504157"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15504157"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2004/10/27 09:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2004/12/16 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2004/10/27 09:00"
}
}
["references"]=>
array(1) {
[0]=>
array(4) {
["refsource"]=>
string(35) "Transfusion. 2004 Nov;44(11):1562-6"
["reftype"]=>
string(10) "Comment on"
["pmid"]=>
int(15504160)
["note"]=>
string(0) ""
}
}
["attributes"]=>
array(0) {
}
["pmcrefcount"]=>
string(0) ""
["fulljournalname"]=>
string(11) "Transfusion"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2004/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15181291]=>
array(43) {
["uid"]=>
string(8) "15181291"
["pubdate"]=>
string(4) "2004"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Immunol Res"
["authors"]=>
array(2) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(7) "Kapp JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Kapp JA"
["title"]=>
string(63) "Identification and characterization of CD8+ suppressor T cells."
["sorttitle"]=>
string(61) "identification and characterization of cd8 suppressor t cells"
["volume"]=>
string(2) "29"
["issue"]=>
string(3) "1-3"
["pages"]=>
string(6) "303-12"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8611087"
["issn"]=>
string(9) "0257-277X"
["essn"]=>
string(9) "1559-0755"
["pubtype"]=>
array(2) {
[0]=>
string(15) "Journal Article"
[1]=>
string(6) "Review"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(5) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15181291"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(13) "IR:29:1-3:303"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1385/IR:29:1-3:303"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15181291"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15181291"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2004/06/08 05:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2004/12/16 09:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2004/06/08 05:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(20) "Immunologic research"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2004/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[15163753]=>
array(43) {
["uid"]=>
string(8) "15163753"
["pubdate"]=>
string(8) "2004 Jun"
["epubdate"]=>
string(0) ""
["source"]=>
string(7) "J Virol"
["authors"]=>
array(9) {
[0]=>
array(3) {
["name"]=>
string(14) "Pozharskaya VP"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Weakland LL"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Krug LT"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Unger ER"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(8) "Neisch A"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[6]=>
array(3) {
["name"]=>
string(7) "Joshi H"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[7]=>
array(3) {
["name"]=>
string(7) "Inoue N"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[8]=>
array(3) {
["name"]=>
string(12) "Offermann MK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Offermann MK"
["title"]=>
string(185) "Short duration of elevated vIRF-1 expression during lytic replication of human herpesvirus 8 limits its ability to block antiviral responses induced by alpha interferon in BCBL-1 cells."
["sorttitle"]=>
string(184) "short duration of elevated virf 1 expression during lytic replication of human herpesvirus 8 limits its ability to block antiviral responses induced by alpha interferon in bcbl 1 cells"
["volume"]=>
string(2) "78"
["issue"]=>
string(2) "12"
["pages"]=>
string(7) "6621-35"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0113724"
["issn"]=>
string(9) "0022-538X"
["essn"]=>
string(9) "1098-5514"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(7) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "15163753"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1128/JVI.78.12.6621-6635.2004"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "pii"
["idtypen"]=>
int(4)
["value"]=>
string(10) "78/12/6621"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(9) "PMC416518"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15163753"
}
[5]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "15163753"
}
[6]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(18) "pmc-id: PMC416518;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2004/05/28 05:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2004/06/30 05:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2004/05/28 05:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(19)
["fulljournalname"]=>
string(19) "Journal of virology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2004/06/01 00:00"
["sortfirstauthor"]=>
string(14) "Pozharskaya VP"
["vernaculartitle"]=>
string(0) ""
}
[14565937]=>
array(43) {
["uid"]=>
string(8) "14565937"
["pubdate"]=>
string(8) "2003 Nov"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "Int Immunol"
["authors"]=>
array(6) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(9) "Levery SB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(7) "Kniep B"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(7) "Kapp LM"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[4]=>
array(3) {
["name"]=>
string(8) "Fuller M"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[5]=>
array(3) {
["name"]=>
string(7) "Kapp JA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(7) "Kapp JA"
["title"]=>
string(54) "CD75s is a marker of murine CD8(+) suppressor T cells."
["sorttitle"]=>
string(50) "cd75s is a marker of murine cd8 suppressor t cells"
["volume"]=>
string(2) "15"
["issue"]=>
string(2) "11"
["pages"]=>
string(7) "1389-99"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "8916182"
["issn"]=>
string(9) "0953-8178"
["essn"]=>
string(9) "1460-2377"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "14565937"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(21) "10.1093/intimm/dxg137"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14565937"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "14565937"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "2003/10/21 05:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "2004/07/03 05:00"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "2003/10/21 05:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(4)
["fulljournalname"]=>
string(24) "International immunology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "2003/11/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
[10466820]=>
array(43) {
["uid"]=>
string(8) "10466820"
["pubdate"]=>
string(8) "1999 Aug"
["epubdate"]=>
string(0) ""
["source"]=>
string(11) "J Gen Virol"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(6) "Roan F"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(11) "Goodbourn S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(12) "Offermann MK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Offermann MK"
["title"]=>
string(91) "Transcriptional activation by the human herpesvirus-8-encoded interferon regulatory factor."
["sorttitle"]=>
string(90) "transcriptional activation by the human herpesvirus 8 encoded interferon regulatory factor"
["volume"]=>
string(10) "80 ( Pt 8)"
["issue"]=>
string(0) ""
["pages"]=>
string(9) "2205-2209"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0077340"
["issn"]=>
string(9) "0022-1317"
["essn"]=>
string(9) "1465-2099"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "10466820"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(27) "10.1099/0022-1317-80-8-2205"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10466820"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10466820"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "1999/08/31 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "1999/08/31 00:01"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "1999/08/31 00:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(13)
["fulljournalname"]=>
string(31) "The Journal of general virology"
["elocationid"]=>
string(32) "doi: 10.1099/0022-1317-80-8-2205"
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "1999/08/01 00:00"
["sortfirstauthor"]=>
string(6) "Roan F"
["vernaculartitle"]=>
string(0) ""
}
[10459548]=>
array(43) {
["uid"]=>
string(8) "10459548"
["pubdate"]=>
string(11) "1999 Aug 15"
["epubdate"]=>
string(0) ""
["source"]=>
string(15) "Transplantation"
["authors"]=>
array(4) {
[0]=>
array(3) {
["name"]=>
string(9) "Jollow KC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Sundstrom JB"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[3]=>
array(3) {
["name"]=>
string(9) "Ansari AA"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(9) "Ansari AA"
["title"]=>
string(116) "CD40 ligation induced phenotypic and functional expression of CD80 by human cardiac microvascular endothelial cells."
["sorttitle"]=>
string(115) "cd40 ligation induced phenotypic and functional expression of cd80 by human cardiac microvascular endothelial cells"
["volume"]=>
string(2) "68"
["issue"]=>
string(1) "3"
["pages"]=>
string(5) "430-9"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0132144"
["issn"]=>
string(9) "0041-1337"
["essn"]=>
string(9) "1534-6080"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(4) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(8) "10459548"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(32) "10.1097/00007890-199908150-00016"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10459548"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(8) "10459548"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "1999/08/25 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "1999/08/25 00:01"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "1999/08/25 00:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(5)
["fulljournalname"]=>
string(15) "Transplantation"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "1999/08/15 00:00"
["sortfirstauthor"]=>
string(9) "Jollow KC"
["vernaculartitle"]=>
string(0) ""
}
[9420276]=>
array(43) {
["uid"]=>
string(7) "9420276"
["pubdate"]=>
string(8) "1998 Jan"
["epubdate"]=>
string(0) ""
["source"]=>
string(7) "J Virol"
["authors"]=>
array(3) {
[0]=>
array(3) {
["name"]=>
string(10) "Zimring JC"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[1]=>
array(3) {
["name"]=>
string(11) "Goodbourn S"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
[2]=>
array(3) {
["name"]=>
string(12) "Offermann MK"
["authtype"]=>
string(6) "Author"
["clusterid"]=>
string(0) ""
}
}
["lastauthor"]=>
string(12) "Offermann MK"
["title"]=>
string(118) "Human herpesvirus 8 encodes an interferon regulatory factor (IRF) homolog that represses IRF-1-mediated transcription."
["sorttitle"]=>
string(115) "human herpesvirus 8 encodes an interferon regulatory factor irf homolog that represses irf 1 mediated transcription"
["volume"]=>
string(2) "72"
["issue"]=>
string(1) "1"
["pages"]=>
string(5) "701-7"
["lang"]=>
array(1) {
[0]=>
string(3) "eng"
}
["nlmuniqueid"]=>
string(7) "0113724"
["issn"]=>
string(9) "0022-538X"
["essn"]=>
string(9) "1098-5514"
["pubtype"]=>
array(1) {
[0]=>
string(15) "Journal Article"
}
["recordstatus"]=>
string(28) "PubMed - indexed for MEDLINE"
["pubstatus"]=>
string(1) "4"
["articleids"]=>
array(6) {
[0]=>
array(3) {
["idtype"]=>
string(6) "pubmed"
["idtypen"]=>
int(1)
["value"]=>
string(7) "9420276"
}
[1]=>
array(3) {
["idtype"]=>
string(3) "pmc"
["idtypen"]=>
int(8)
["value"]=>
string(9) "PMC109425"
}
[2]=>
array(3) {
["idtype"]=>
string(3) "doi"
["idtypen"]=>
int(3)
["value"]=>
string(29) "10.1128/JVI.72.1.701-707.1998"
}
[3]=>
array(3) {
["idtype"]=>
string(3) "rid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "9420276"
}
[4]=>
array(3) {
["idtype"]=>
string(3) "eid"
["idtypen"]=>
int(8)
["value"]=>
string(7) "9420276"
}
[5]=>
array(3) {
["idtype"]=>
string(5) "pmcid"
["idtypen"]=>
int(5)
["value"]=>
string(18) "pmc-id: PMC109425;"
}
}
["history"]=>
array(3) {
[0]=>
array(2) {
["pubstatus"]=>
string(6) "pubmed"
["date"]=>
string(16) "1998/01/07 00:00"
}
[1]=>
array(2) {
["pubstatus"]=>
string(7) "medline"
["date"]=>
string(16) "1998/01/07 00:01"
}
[2]=>
array(2) {
["pubstatus"]=>
string(6) "entrez"
["date"]=>
string(16) "1998/01/07 00:00"
}
}
["references"]=>
array(0) {
}
["attributes"]=>
array(1) {
[0]=>
string(12) "Has Abstract"
}
["pmcrefcount"]=>
int(71)
["fulljournalname"]=>
string(19) "Journal of virology"
["elocationid"]=>
string(0) ""
["doctype"]=>
string(8) "citation"
["srccontriblist"]=>
array(0) {
}
["booktitle"]=>
string(0) ""
["medium"]=>
string(0) ""
["edition"]=>
string(0) ""
["publisherlocation"]=>
string(0) ""
["publishername"]=>
string(0) ""
["srcdate"]=>
string(0) ""
["reportnumber"]=>
string(0) ""
["availablefromurl"]=>
string(0) ""
["locationlabel"]=>
string(0) ""
["doccontriblist"]=>
array(0) {
}
["docdate"]=>
string(0) ""
["bookname"]=>
string(0) ""
["chapter"]=>
string(0) ""
["sortpubdate"]=>
string(16) "1998/01/01 00:00"
["sortfirstauthor"]=>
string(10) "Zimring JC"
["vernaculartitle"]=>
string(0) ""
}
}
}
Publications
The following publications were retrieved from PubMed:
IgG Subclass Determines Suppression Versus Enhancement of Humoral Alloimmunity to Kell RBC Antigens in Mice.
Shinde P, Howie HL, Stegmann TC, Hay AM, Waterman HR, Szittner Z, Bentlage AEH, Kapp L, Lissenberg-Thunnissen SN, Dekkers G, Schasfoort RBM, Ratcliffe SJ, Smolkin ME, Vidarsson G, van der Schoot CE, Hudson KE, Zimring JC.
Front Immunol. 2020; (11)1516
Complement activation on endothelium initiates antibody-mediated acute lung injury.
Cleary SJ, Kwaan N, Tian JJ, Calabrese DR, Mallavia B, Magnen M, Greenland JR, Urisman A, Singer JP, Hays SR, Kukreja J, Hay AM, Howie HL, Toy P, Lowell CA, Morrell CN, Zimring JC, Looney MR.
J Clin Invest. 2020 Jul 30;
Evidence for structural protein damage and membrane lipid remodeling in red blood cells from COVID-19 patients.
Thomas T, Stefanoni D, Dzieciatkowska M, Issaian A, Nemkov T, Hill RC, Francis RO, Hudson KE, Buehler PW, Zimring JC, Hod EA, Hansen KC, Spitalnik SL, D'Alessandro A.
medRxiv. 2020 Jun 30;
COVID-19 infection alters kynurenine and fatty acid metabolism, correlating with IL-6 levels and renal status.
Thomas T, Stefanoni D, Reisz JA, Nemkov T, Bertolone L, Francis RO, Hudson KE, Zimring JC, Hansen KC, Hod EA, Spitalnik SL, D'Alessandro A.
JCI Insight. 2020 Jul 23; 14(5)
COVID-19 infection results in alterations of the kynurenine pathway and fatty acid metabolism that correlate with IL-6 levels and renal status.
Thomas T, Stefanoni D, Reisz JA, Nemkov T, Bertolone L, Francis RO, Hudson KE, Zimring JC, Hansen KC, Hod EA, Spitalnik SL, D'Alessandro A.
medRxiv. 2020 May 16;
