faculty

James Zimring

jzimring@bloodworksnw.org
Professor

Puget Sounds Blood Center Research Institute

Microbiology, Infection & Immunity

Immunology of the Blood with a focus on Transfusion and Transplantation

Faculty Contact Information

Building: 1551 Eastlake Ave E, Suite 100 Phone: 206-568-2234
https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=NCID_1_15445614_130.14.22.33_9001_1569068456_1981563001_0MetA0_S_MegaStore&retmode=json
Resource id #550 -- array(2) { ["header"]=> array(2) { ["type"]=> string(8) "esummary" ["version"]=> string(3) "0.3" } ["result"]=> array(128) { ["uids"]=> array(127) { [0]=> string(8) "31350307" [1]=> string(8) "31207887" [2]=> string(8) "31184577" [3]=> string(8) "31119659" [4]=> string(8) "31002399" [5]=> string(8) "30865302" [6]=> string(8) "30681727" [7]=> string(8) "30353560" [8]=> string(8) "30312994" [9]=> string(8) "30278801" [10]=> string(8) "30239377" [11]=> string(8) "29550761" [12]=> string(8) "29464723" [13]=> string(8) "29395164" [14]=> string(8) "29307717" [15]=> string(8) "29243830" [16]=> string(8) "29163500" [17]=> string(8) "29163471" [18]=> string(8) "29079593" [19]=> string(8) "28921569" [20]=> string(8) "28679954" [21]=> string(8) "28630094" [22]=> string(8) "28263174" [23]=> string(8) "28263165" [24]=> string(8) "28250159" [25]=> string(8) "27913515" [26]=> string(8) "27662015" [27]=> string(8) "27632931" [28]=> string(8) "27582209" [29]=> string(8) "27514704" [30]=> string(8) "27507802" [31]=> string(8) "27345021" [32]=> string(8) "27185856" [33]=> string(8) "27158944" [34]=> string(8) "26954453" [35]=> string(8) "26921359" [36]=> string(8) "26843479" [37]=> string(8) "26405215" [38]=> string(8) "26400622" [39]=> string(8) "26260861" [40]=> string(8) "26188060" [41]=> string(8) "26185172" [42]=> string(8) "26174903" [43]=> string(8) "26074173" [44]=> string(8) "26053689" [45]=> string(8) "25670928" [46]=> string(8) "25651844" [47]=> string(8) "25621658" [48]=> string(8) "25409031" [49]=> string(8) "25342661" [50]=> string(8) "25122924" [51]=> string(8) "25041478" [52]=> string(8) "24636780" [53]=> string(8) "24319246" [54]=> string(8) "24108700" [55]=> string(8) "24090731" [56]=> string(8) "23878139" [57]=> string(8) "23815264" [58]=> string(8) "23801629" [59]=> string(8) "23721226" [60]=> string(8) "23721209" [61]=> string(8) "23621760" [62]=> string(8) "23441757" [63]=> string(8) "23411733" [64]=> string(8) "23384196" [65]=> string(8) "23118779" [66]=> string(8) "23033973" [67]=> string(8) "22738400" [68]=> string(8) "22733018" [69]=> string(8) "22682308" [70]=> string(8) "22679338" [71]=> string(8) "22502635" [72]=> string(8) "22494154" [73]=> string(8) "22321003" [74]=> string(8) "22300526" [75]=> string(8) "22077064" [76]=> string(8) "22021369" [77]=> string(8) "21981241" [78]=> string(8) "21884408" [79]=> string(8) "21790627" [80]=> string(8) "21645005" [81]=> string(8) "21569043" [82]=> string(8) "21269695" [83]=> string(8) "21251006" [84]=> string(8) "20546207" [85]=> string(8) "20513564" [86]=> string(8) "20345515" [87]=> string(8) "20299509" [88]=> string(8) "20086249" [89]=> string(8) "19906034" [90]=> string(8) "19735500" [91]=> string(8) "19726874" [92]=> string(8) "19573176" [93]=> string(8) "19539874" [94]=> string(8) "19525479" [95]=> string(8) "19413728" [96]=> string(8) "19309468" [97]=> string(8) "19170996" [98]=> string(8) "19056031" [99]=> string(8) "18832936" [100]=> string(8) "18832931" [101]=> string(8) "18830382" [102]=> string(8) "18572096" [103]=> string(8) "18564394" [104]=> string(8) "18483395" [105]=> string(8) "18466159" [106]=> string(8) "17960129" [107]=> string(8) "17764514" [108]=> string(8) "17591943" [109]=> string(8) "17569819" [110]=> string(8) "17286988" [111]=> string(8) "17258125" [112]=> string(8) "17174218" [113]=> string(8) "16965580" [114]=> string(8) "16707366" [115]=> string(8) "16421482" [116]=> string(8) "16123213" [117]=> string(8) "15913791" [118]=> string(8) "15831698" [119]=> string(8) "15591947" [120]=> string(8) "15504157" [121]=> string(8) "15181291" [122]=> string(8) "15163753" [123]=> string(8) "14565937" [124]=> string(8) "10466820" [125]=> string(8) "10459548" [126]=> string(7) "9420276" } [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(19) "PubMed - in process" ["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) "2019/07/28 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["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(19) "PubMed - in process" ["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) "2019/06/19 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["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(19) "PubMed - in process" ["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) "2019/06/12 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(1) ["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(19) "PubMed - in process" ["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) "2019/05/24 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(19) "PubMed - in process" ["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) "2019/04/20 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(2) ["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(19) "PubMed - in process" ["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) "2019/03/14 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(1) ["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(4) { [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) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30681727" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30681727" } } ["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"]=> string(0) "" ["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(71) "pmc-id: PMC6322946;manuscript-id: NIHMS993154;embargo-date: 2020/01/01;" } } ["history"]=> array(7) { [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(11) "pmc-release" ["date"]=> string(16) "2020/01/01 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/10/26 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/05/07 06:00" } [6]=> 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(8) ["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(71) "pmc-id: PMC6357231;manuscript-id: NIHMS993130;embargo-date: 2019/12/01;" } } ["history"]=> array(7) { [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(11) "pmc-release" ["date"]=> string(16) "2019/12/01 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/10/13 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/04/10 06:00" } [6]=> 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(4) ["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(2) ["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(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(19) "PubMed - in process" ["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) "2018/09/22 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"]=> string(0) "" ["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"]=> string(0) "" ["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(3) ["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(16) ["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(4) { [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) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "28921569" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "28921569" } } ["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(9) ["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(4) ["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(9) ["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(2) ["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(8) ["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(3) ["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(17) ["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(21) ["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(28) ["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(5) ["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(20) ["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(9) ["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(1) ["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(2) { [0]=> string(18) "Evaluation Studies" [1]=> 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(2) ["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(16) ["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(5) ["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(11) ["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(2) ["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(22) ["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(22) ["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(2) ["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(10) ["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(8) ["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(31) ["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(14) ["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(4) ["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(17) ["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(19) ["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(13) ["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(28) ["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(18) ["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(16) ["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(11) ["fulljournalname"]=> string(39) "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(9) ["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(2) { [0]=> string(18) "Evaluation Studies" [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) "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(14) ["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(7) ["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(6) ["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(15) ["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(22) ["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(7) ["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(20) ["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(87) ["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(7) ["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(2) { [0]=> string(18) "Evaluation Studies" [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) "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(9) ["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(4) { [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) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "21251006" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "21251006" } } ["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(20) ["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"]=> string(0) "" ["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(13) ["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(153) ["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(17) ["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(18) ["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(17) ["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(53) ["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(44) ["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(15) ["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(9) ["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(13) ["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(14) ["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(41) ["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(12) ["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(45) ["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(7) ["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(18) ["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(4) ["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(17) ["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(6) "2205-9" ["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(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) "1999/08/01 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(5) { [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) "rid" ["idtypen"]=> int(8) ["value"]=> string(7) "9420276" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(7) "9420276" } [4]=> 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(65) ["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:

Differences in Steap3 expression are a mechanism of genetic variation of RBC storage and oxidative damage in mice.

Howie HL, Hay AM, de Wolski K, Waterman H, Lebedev J, Fu X, Culp-Hill R, D'Alessandro A, Gorham JD, Ranson MS, Roback JD, Thomson PC, Zimring JC.

Blood Adv. 2019 Aug 13; 15(3)2272-2285

Parabiosis Incompletely Reverses Aging-Induced Metabolic Changes and Oxidant Stress in Mouse Red Blood Cells.

Morrison EJ, Champagne DP, Dzieciatkowska M, Nemkov T, Zimring JC, Hansen KC, Guan F, Huffman DM, Santambrogio L, D'Alessandro A.

Nutrients. 2019 Jun 14; 6(11)

Protect, repair, destroy or sacrifice: a role of oxidative stress biology in inter-donor variability of blood storage?

D'Alessandro A, Hansen KC, Eisenmesser EZ, Zimring JC.

Blood Transfus. 2019 Jul; 4(17)281-288

LC-MS/MS-MRM-Based Targeted Metabolomics for Quantitative Analysis of Polyunsaturated Fatty Acids and Oxylipins.

Fu X, Anderson M, Wang Y, Zimring JC.

Methods Mol Biol. 2019; (1978)107-120

Reexamination of the chromium-51-labeled posttransfusion red blood cell recovery method.

Francis RO, Mahajan S, Rapido F, La Carpia F, Soffing M, Divgi C, Yeh R, Mintz A, Leslie L, Agrest I, Karafin MS, Ginzburg Y, Shaz BH, Spitalnik SL, Schwartz J, Thomas T, Fu X, Amireault P, Buffet P, Zimring JC, D'Alessandro A, Hod EA.

Transfusion. 2019 Jul; 7(59)2264-2275

Accepting Students For:

Rotation, Autumn
Rotation, Spring
Rotation, Summer
Rotation, Winter
Permanent

Lab Information

Location: BloodworksNW Research Institute
Building: 1515 Eastlake Ave E
Room: Suite 100