faculty

Marco Pravetoni

mprave@uw.edu
Professor

University of Washington

Psychiatry & Behavioral Sciences

Biophysical and Structural Biology

Microbiology, Infection & Immunity

Neuroscience

Vaccines, Antibodies, Small Molecules to treat Substance Use Disorders, Overdose, and other unmet public health threats

Faculty Contact Information

Building: Harborview Research and Training Building Room: 406C Box: 359911 Phone: 206-897-4202 https://psychiatry.uw.edu/research/center-for-medication-development-for-substance-use-disorders-and-overdose/

Research Summary

Our research program focuses on discovery, development and translation of novel
medical interventions against substance use disorders (SUD), drug overdose and other emerging chemical or biological threats. Current efforts are: 1) development and translation of vaccines, monoclonal antibodies (mAb), and small molecules to treat or prevent SUD, opioid use disorders (OUD) and overdose, 2) Phase I clinical trials of vaccines for OUD, 3) mechanisms and biomarkers underlying or predicting efficacy of immunotherapeutics and medications in preclinical and clinical models of SUD and OUD, 4) novel strategies to enhance vaccine or medication efficacy, including immunomodulators, small molecules, adjuvants, nanoparticles, polymers and other delivery platforms, 5) development of vaccines, mAb, and clinical biomarkers against infectious diseases (e.g., P. aeruginosa and novel coronavirus SARS-CoV-2), and 6) mAb-driven strategies against cancer. These projects include both individual and team science efforts involving multi-site
academic collaborations with key experts, ad hoc industry partners, and contract organizations. Hence, my research program and Center will provide ample training opportunities for MCB students, and the right environment to thrive through the University of Washington system.

DEI Statement

I am committed to promote an inclusive, diverse, and equitable environment for teaching and mentoring the next-generation of scientists.

https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&query_key=1&WebEnv=MCID_6335715eafd0a1641e5859dc&retmode=json
Resource id #317 -- array(2) { ["header"]=> array(2) { ["type"]=> string(8) "esummary" ["version"]=> string(3) "0.3" } ["result"]=> array(57) { ["uids"]=> array(56) { [0]=> string(8) "35601290" [1]=> string(8) "35592436" [2]=> string(8) "35469698" [3]=> string(8) "35153198" [4]=> string(8) "34807557" [5]=> string(8) "34661081" [6]=> string(8) "34411500" [7]=> string(8) "34281999" [8]=> string(8) "34126123" [9]=> string(8) "33986280" [10]=> string(8) "33215913" [11]=> string(8) "33113208" [12]=> string(8) "33101712" [13]=> string(8) "32980813" [14]=> string(8) "32586850" [15]=> string(8) "32439214" [16]=> string(8) "32283290" [17]=> string(8) "32079024" [18]=> string(8) "31830773" [19]=> string(8) "31497753" [20]=> string(8) "31173759" [21]=> string(8) "31018096" [22]=> string(8) "30625019" [23]=> string(8) "30409833" [24]=> string(8) "30405185" [25]=> string(8) "30240216" [26]=> string(8) "29615715" [27]=> string(8) "29535156" [28]=> string(8) "29194445" [29]=> string(8) "28127624" [30]=> string(8) "27441896" [31]=> string(8) "26409811" [32]=> string(8) "25972483" [33]=> string(8) "25948263" [34]=> string(8) "25025380" [35]=> string(8) "24797666" [36]=> string(8) "24462800" [37]=> string(8) "24312662" [38]=> string(8) "24176492" [39]=> string(8) "23249238" [40]=> string(8) "23220743" [41]=> string(8) "23123021" [42]=> string(8) "22583811" [43]=> string(8) "22503967" [44]=> string(8) "22262924" [45]=> string(8) "22100986" [46]=> string(8) "21333633" [47]=> string(8) "20557431" [48]=> string(8) "20043004" [49]=> string(8) "18523006" [50]=> string(8) "18400906" [51]=> string(8) "18194467" [52]=> string(8) "18094251" [53]=> string(8) "16880773" [54]=> string(8) "14997177" [55]=> string(8) "12390877" } [35601290]=> array(43) { ["uid"]=> string(8) "35601290" ["pubdate"]=> string(11) "2022 May 17" ["epubdate"]=> string(10) "2022 May 4" ["source"]=> string(9) "ACS Omega" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Kassick A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Jahan R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Gradinati V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Averick SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(120) "Preclinical Efficacy and Selectivity of Vaccines Targeting Fentanyl, Alfentanil, Sufentanil, and Acetylfentanyl in Rats." ["sorttitle"]=> string(116) "preclinical efficacy and selectivity of vaccines targeting fentanyl alfentanil sufentanil and acetylfentanyl in rats" ["volume"]=> string(1) "7" ["issue"]=> string(2) "19" ["pages"]=> string(11) "16584-16592" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101691658" ["issn"]=> string(0) "" ["essn"]=> string(9) "2470-1343" ["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) "35601290" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.1021/acsomega.2c00820" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9118421" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "35601290" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "35601290" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC9118421;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2022/02/09 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2022/04/20 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/05/23 04:07" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/05/24 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/05/24 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(2) ["fulljournalname"]=> string(9) "ACS omega" ["elocationid"]=> string(29) "doi: 10.1021/acsomega.2c00820" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/05/04 00:00" ["sortfirstauthor"]=> string(7) "Baehr C" ["vernaculartitle"]=> string(0) "" } [35592436]=> array(43) { ["uid"]=> string(8) "35592436" ["pubdate"]=> string(11) "2022 May 13" ["epubdate"]=> string(11) "2022 Apr 20" ["source"]=> string(24) "ACS Pharmacol Transl Sci" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(8) "Crouse B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(5) "Wu MM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Gradinati V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Kassick AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Song D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Jahan R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Runyon S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Comer SD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(156) "Efficacy and Selectivity of Monovalent and Bivalent Vaccination Strategies to Protect against Exposure to Carfentanil, Fentanyl, and Their Mixtures in Rats." ["sorttitle"]=> string(153) "efficacy and selectivity of monovalent and bivalent vaccination strategies to protect against exposure to carfentanil fentanyl and their mixtures in rats" ["volume"]=> string(1) "5" ["issue"]=> string(1) "5" ["pages"]=> string(7) "331-343" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101721411" ["issn"]=> string(0) "" ["essn"]=> string(9) "2575-9108" ["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) "35592436" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.1021/acsptsci.1c00260" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9112413" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "35592436" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "35592436" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(44) "pmc-id: PMC9112413;embargo-date: 2023/04/20;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/12/07 00:00" } [1]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2023/04/20 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/05/20 02:24" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/05/21 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/05/21 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(40) "ACS pharmacology & translational science" ["elocationid"]=> string(29) "doi: 10.1021/acsptsci.1c00260" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/04/20 00:00" ["sortfirstauthor"]=> string(8) "Crouse B" ["vernaculartitle"]=> string(0) "" } [35469698]=> array(43) { ["uid"]=> string(8) "35469698" ["pubdate"]=> string(11) "2022 May 20" ["epubdate"]=> string(11) "2022 Apr 22" ["source"]=> string(7) "Vaccine" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(8) "Hamid FA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Marker CL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Khaimraj A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Winston S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(98) "Pre-clinical safety and toxicology profile of a candidate vaccine to treat oxycodone use disorder." ["sorttitle"]=> string(97) "pre clinical safety and toxicology profile of a candidate vaccine to treat oxycodone use disorder" ["volume"]=> string(2) "40" ["issue"]=> string(2) "23" ["pages"]=> string(9) "3244-3252" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "35469698" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(22)00364-4" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2022.03.053" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9186020" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1800931" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "35469698" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "35469698" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(72) "pmc-id: PMC9186020;manuscript-id: NIHMS1800931;embargo-date: 2023/05/20;" } } ["history"]=> array(7) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/12/20 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2022/02/17 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2022/03/22 00:00" } [3]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2023/05/20 00:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/04/27 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/05/14 06:00" } [6]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/04/26 05:56" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2022.03.053" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/05/20 00:00" ["sortfirstauthor"]=> string(8) "Hamid FA" ["vernaculartitle"]=> string(0) "" } [35153198]=> array(43) { ["uid"]=> string(8) "35153198" ["pubdate"]=> string(8) "2022 May" ["epubdate"]=> string(11) "2022 Feb 13" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Baehr CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(5) "Wu MM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Pandit SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(13) "Arias-Umana J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "AuCoin D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(146) "Pharmacological Profiling of Antifentanyl Monoclonal Antibodies in Combination with Naloxone in Pre- and Postexposure Models of Fentanyl Toxicity." ["sorttitle"]=> string(144) "pharmacological profiling of antifentanyl monoclonal antibodies in combination with naloxone in pre and postexposure models of fentanyl toxicity" ["volume"]=> string(3) "381" ["issue"]=> string(1) "2" ["pages"]=> string(7) "129-136" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "35153198" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.121.001048" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.121.001048" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC9048265" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "35153198" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "35153198" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(44) "pmc-id: PMC9048265;embargo-date: 2023/05/01;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/12/06 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2022/02/02 00:00" } [2]=> array(2) { ["pubstatus"]=> string(11) "pmc-release" ["date"]=> string(16) "2023/05/01 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2022/02/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/04/21 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2022/02/14 05:27" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.121.001048" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2022/05/01 00:00" ["sortfirstauthor"]=> string(8) "Baehr CA" ["vernaculartitle"]=> string(0) "" } [34807557]=> array(43) { ["uid"]=> string(8) "34807557" ["pubdate"]=> string(10) "2021 Dec 7" ["epubdate"]=> string(11) "2021 Nov 22" ["source"]=> string(9) "Anal Chem" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(9) "Dignan LM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Woolf MS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Ross JA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Holstege CP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Landers JP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Landers JP" ["title"]=> string(128) "A Membrane-Modulated Centrifugal Microdevice for Enzyme-Linked Immunosorbent Assay-Based Detection of Illicit and Misused Drugs." ["sorttitle"]=> string(125) "membrane modulated centrifugal microdevice for enzyme linked immunosorbent assay based detection of illicit and misused drugs" ["volume"]=> string(2) "93" ["issue"]=> string(2) "48" ["pages"]=> string(11) "16213-16221" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0370536" ["issn"]=> string(9) "0003-2700" ["essn"]=> string(9) "1520-6882" ["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) "34807557" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1021/acs.analchem.1c04102" } [2]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34807557" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34807557" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/11/23 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/12/15 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/11/22 17:10" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(2) ["fulljournalname"]=> string(20) "Analytical chemistry" ["elocationid"]=> string(33) "doi: 10.1021/acs.analchem.1c04102" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/12/07 00:00" ["sortfirstauthor"]=> string(9) "Dignan LM" ["vernaculartitle"]=> string(0) "" } [34661081]=> array(43) { ["uid"]=> string(8) "34661081" ["pubdate"]=> string(10) "2021 Oct 8" ["epubdate"]=> string(11) "2021 Aug 26" ["source"]=> string(24) "ACS Pharmacol Transl Sci" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(10) "Kassick AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(4) "Wu M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Luengas D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Ebqa'ai M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(18) "Tharika Nirmani LP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Tomycz N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Nelson TL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Averick S" ["title"]=> string(101) "Covalently Loaded Naloxone Nanoparticles as a Long-Acting Medical Countermeasure to Opioid Poisoning." ["sorttitle"]=> string(100) "covalently loaded naloxone nanoparticles as a long acting medical countermeasure to opioid poisoning" ["volume"]=> string(1) "4" ["issue"]=> string(1) "5" ["pages"]=> string(9) "1654-1664" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101721411" ["issn"]=> string(0) "" ["essn"]=> string(9) "2575-9108" ["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) "34661081" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.1021/acsptsci.1c00168" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8506606" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34661081" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34661081" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC8506606;" } } ["history"]=> array(4) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/06/29 00:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/10/18 09:13" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/10/19 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/10/19 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(40) "ACS pharmacology & translational science" ["elocationid"]=> string(29) "doi: 10.1021/acsptsci.1c00168" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/08/26 00:00" ["sortfirstauthor"]=> string(10) "Kassick AJ" ["vernaculartitle"]=> string(0) "" } [34411500]=> array(43) { ["uid"]=> string(8) "34411500" ["pubdate"]=> string(10) "2021 Nov 2" ["epubdate"]=> string(11) "2021 Aug 19" ["source"]=> string(21) "Hum Vaccin Immunother" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(8) "Crouse B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Zhang L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(5) "Ban Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(13) "Vigliaturo JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(5) "Roy S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(139) "Housing conditions and microbial environment do not affect the efficacy of vaccines for treatment of opioid use disorders in mice and rats." ["sorttitle"]=> string(138) "housing conditions and microbial environment do not affect the efficacy of vaccines for treatment of opioid use disorders in mice and rats" ["volume"]=> string(2) "17" ["issue"]=> string(2) "11" ["pages"]=> string(9) "4383-4392" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101572652" ["issn"]=> string(9) "2164-5515" ["essn"]=> string(9) "2164-554X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["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) "34411500" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1080/21645515.2021.1954442" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8828096" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34411500" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34411500" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC8828096;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/08/20 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/01/27 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/08/19 20:12" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(35) "Human vaccines & immunotherapeutics" ["elocationid"]=> string(34) "doi: 10.1080/21645515.2021.1954442" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/11/02 00:00" ["sortfirstauthor"]=> string(8) "Crouse B" ["vernaculartitle"]=> string(0) "" } [34281999]=> array(43) { ["uid"]=> string(8) "34281999" ["pubdate"]=> string(10) "2021 Aug 1" ["epubdate"]=> string(11) "2021 Jul 19" ["source"]=> string(9) "J Immunol" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(17) "Huseby Kelcher AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Baehr CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Hamid FA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Hart GT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(119) "Contribution of Antibody-Mediated Effector Functions to the Mechanism of Efficacy of Vaccines for Opioid Use Disorders." ["sorttitle"]=> string(118) "contribution of antibody mediated effector functions to the mechanism of efficacy of vaccines for opioid use disorders" ["volume"]=> string(3) "207" ["issue"]=> string(1) "3" ["pages"]=> string(7) "860-867" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2985117R" ["issn"]=> string(9) "0022-1767" ["essn"]=> string(9) "1550-6606" ["pubtype"]=> array(2) { [0]=> string(7) "Comment" [1]=> 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) "34281999" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(16) "jimmunol.2100204" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.4049/jimmunol.2100204" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8324535" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1711989" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34281999" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34281999" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC8324535;manuscript-id: NIHMS1711989;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/03/02 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/05/28 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/07/21 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/08/03 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/07/20 06:11" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(36) "J Immunol. 2021 Aug 1;207(3):751-752" ["reftype"]=> string(10) "Comment on" ["pmid"]=> int(34321284) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(45) "Journal of immunology (Baltimore, Md. : 1950)" ["elocationid"]=> string(29) "doi: 10.4049/jimmunol.2100204" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/08/01 00:00" ["sortfirstauthor"]=> string(17) "Huseby Kelcher AM" ["vernaculartitle"]=> string(0) "" } [34126123]=> array(43) { ["uid"]=> string(8) "34126123" ["pubdate"]=> string(10) "2021 Sep 1" ["epubdate"]=> string(11) "2021 Jun 11" ["source"]=> string(17) "Neuropharmacology" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "King SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Saykao A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Hamid FA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Winston S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "LeSage MG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(120) "Pharmacological mechanisms underlying the efficacy of antibodies generated by a vaccine to treat oxycodone use disorder." ["sorttitle"]=> string(119) "pharmacological mechanisms underlying the efficacy of antibodies generated by a vaccine to treat oxycodone use disorder" ["volume"]=> string(3) "195" ["issue"]=> string(0) "" ["pages"]=> string(6) "108653" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0236217" ["issn"]=> string(9) "0028-3908" ["essn"]=> string(9) "1873-7064" ["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) "34126123" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0028-3908(21)00208-2" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1016/j.neuropharm.2021.108653" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8410661" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1714837" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "34126123" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "34126123" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC8410661;manuscript-id: NIHMS1714837;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2021/02/05 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2021/05/07 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/06/06 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/06/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2022/01/28 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/06/14 20:13" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(3) ["fulljournalname"]=> string(17) "Neuropharmacology" ["elocationid"]=> string(37) "doi: 10.1016/j.neuropharm.2021.108653" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/09/01 00:00" ["sortfirstauthor"]=> string(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [33986280]=> array(43) { ["uid"]=> string(8) "33986280" ["pubdate"]=> string(11) "2021 May 13" ["epubdate"]=> string(11) "2021 May 13" ["source"]=> string(12) "NPJ Vaccines" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(8) "Stone AE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(14) "Scheuermann SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Haile CN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Cuny GD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Velasquez ML" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Linhuber JP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(12) "Duddupudi AL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(13) "Vigliaturo JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Kosten TA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Kosten TR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Norton EB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Norton EB" ["title"]=> string(136) "Fentanyl conjugate vaccine by injected or mucosal delivery with dmLT or LTA1 adjuvants implicates IgA in protection from drug challenge." ["sorttitle"]=> string(135) "fentanyl conjugate vaccine by injected or mucosal delivery with dmlt or lta1 adjuvants implicates iga in protection from drug challenge" ["volume"]=> string(1) "6" ["issue"]=> string(1) "1" ["pages"]=> string(2) "69" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101699863" ["issn"]=> string(0) "" ["essn"]=> string(9) "2059-0105" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(1) "3" ["articleids"]=> array(7) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "33986280" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41541-021-00329-0" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41541-021-00329-0" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8119695" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33986280" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33986280" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC8119695;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/10/26 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2021/03/22 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2021/05/14 06:15" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2021/05/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/05/15 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(2) ["fulljournalname"]=> string(12) "NPJ vaccines" ["elocationid"]=> string(31) "doi: 10.1038/s41541-021-00329-0" ["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) "2021/05/13 00:00" ["sortfirstauthor"]=> string(8) "Stone AE" ["vernaculartitle"]=> string(0) "" } [33215913]=> array(43) { ["uid"]=> string(8) "33215913" ["pubdate"]=> string(11) "2020 Dec 10" ["epubdate"]=> string(11) "2020 Nov 20" ["source"]=> string(10) "J Med Chem" ["authors"]=> array(13) { [0]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Gradinati V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "Hamid F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Crouse B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Kovaliov M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Harris D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(8) "Runyon S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(8) "LeSage M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(7) "Comer S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(88) "Therapeutic and Prophylactic Vaccines to Counteract Fentanyl Use Disorders and Toxicity." ["sorttitle"]=> string(87) "therapeutic and prophylactic vaccines to counteract fentanyl use disorders and toxicity" ["volume"]=> string(2) "63" ["issue"]=> string(2) "23" ["pages"]=> string(11) "14647-14667" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9716531" ["issn"]=> string(9) "0022-2623" ["essn"]=> string(9) "1520-4804" ["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) "33215913" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1021/acs.jmedchem.0c01042" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8193686" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1710797" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33215913" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33215913" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC8193686;manuscript-id: NIHMS1710797;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/11/21 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/02/04 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/11/20 12:12" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(11) ["fulljournalname"]=> string(30) "Journal of medicinal chemistry" ["elocationid"]=> string(33) "doi: 10.1021/acs.jmedchem.0c01042" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/12/10 00:00" ["sortfirstauthor"]=> string(10) "Robinson C" ["vernaculartitle"]=> string(0) "" } [33113208]=> array(43) { ["uid"]=> string(8) "33113208" ["pubdate"]=> string(8) "2021 Mar" ["epubdate"]=> string(11) "2020 Nov 29" ["source"]=> string(19) "Clin Pharmacol Ther" ["authors"]=> array(23) { [0]=> array(3) { ["name"]=> string(9) "France CP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Ahern GP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Disney A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Enright HA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(14) "Esmaeli-Azad B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Federico A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Gerak LR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Husbands SM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Kolber B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(6) "Lau EY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(5) "Lao V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(10) "Maguire DR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(11) "Malfatti MA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [14]=> array(3) { ["name"]=> string(10) "Martinez G" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [15]=> array(3) { ["name"]=> string(8) "Mayer BP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [16]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [17]=> array(3) { ["name"]=> string(11) "Sahibzada N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [18]=> array(3) { ["name"]=> string(10) "Skolnick P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [19]=> array(3) { ["name"]=> string(9) "Snyder EY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [20]=> array(3) { ["name"]=> string(8) "Tomycz N" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [21]=> array(3) { ["name"]=> string(9) "Valdez CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [22]=> array(3) { ["name"]=> string(6) "Zapf J" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(6) "Zapf J" ["title"]=> string(60) "Countermeasures for Preventing and Treating Opioid Overdose." ["sorttitle"]=> string(59) "countermeasures for preventing and treating opioid overdose" ["volume"]=> string(3) "109" ["issue"]=> string(1) "3" ["pages"]=> string(7) "578-590" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0372741" ["issn"]=> string(9) "0009-9236" ["essn"]=> string(9) "1532-6535" ["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) "33113208" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(16) "10.1002/cpt.2098" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8193687" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1710801" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33113208" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33113208" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC8193687;manuscript-id: NIHMS1710801;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/08/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/10/15 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/10/29 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/07/16 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/10/28 17:19" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(44) "Clin Pharmacol Ther. 2021 Mar;109(3):557-559" ["reftype"]=> string(10) "Comment in" ["pmid"]=> int(33615454) ["note"]=> string(0) "" } } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(10) ["fulljournalname"]=> string(38) "Clinical pharmacology and therapeutics" ["elocationid"]=> string(21) "doi: 10.1002/cpt.2098" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2021/03/01 00:00" ["sortfirstauthor"]=> string(9) "France CP" ["vernaculartitle"]=> string(0) "" } [33101712]=> array(43) { ["uid"]=> string(8) "33101712" ["pubdate"]=> string(4) "2020" ["epubdate"]=> string(11) "2020 Oct 21" ["source"]=> string(12) "NPJ Vaccines" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Crouse B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(16) "Huseby Kelcher A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Abrahante JE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(99) "Mechanisms of interleukin 4 mediated increase in efficacy of vaccines against opioid use disorders." ["sorttitle"]=> string(98) "mechanisms of interleukin 4 mediated increase in efficacy of vaccines against opioid use disorders" ["volume"]=> string(1) "5" ["issue"]=> string(0) "" ["pages"]=> string(2) "99" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101699863" ["issn"]=> string(0) "" ["essn"]=> string(9) "2059-0105" ["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) "33101712" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41541-020-00247-7" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(3) "247" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7578047" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "33101712" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "33101712" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7578047;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/05/19 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/09/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/10/26 05:24" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/10/27 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/10/27 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(4) ["fulljournalname"]=> string(12) "NPJ vaccines" ["elocationid"]=> string(31) "doi: 10.1038/s41541-020-00247-7" ["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) "2020/10/21 00:00" ["sortfirstauthor"]=> string(8) "Crouse B" ["vernaculartitle"]=> string(0) "" } [32980813]=> array(43) { ["uid"]=> string(8) "32980813" ["pubdate"]=> string(8) "2020 Dec" ["epubdate"]=> string(11) "2020 Sep 26" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Kelcher AH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Khaimraj A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(7) "Reed DE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Pandit SG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "AuCoin D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(94) "Monoclonal Antibodies Counteract Opioid-Induced Behavioral and Toxic Effects in Mice and Rats." ["sorttitle"]=> string(93) "monoclonal antibodies counteract opioid induced behavioral and toxic effects in mice and rats" ["volume"]=> string(3) "375" ["issue"]=> string(1) "3" ["pages"]=> string(7) "469-477" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "32980813" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.120.000124" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.120.000124" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7718726" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32980813" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32980813" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7718726;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/05/22 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/09/23 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/09/28 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/12/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/09/27 20:36" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(9) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.120.000124" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/12/01 00:00" ["sortfirstauthor"]=> string(7) "Baehr C" ["vernaculartitle"]=> string(0) "" } [32586850]=> array(43) { ["uid"]=> string(8) "32586850" ["pubdate"]=> string(8) "2020 Sep" ["epubdate"]=> string(11) "2020 Jun 25" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Accetturo C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(167) "Combining a Candidate Vaccine for Opioid Use Disorders with Extended-Release Naltrexone Increases Protection against Oxycodone-Induced Behavioral Effects and Toxicity." ["sorttitle"]=> string(166) "combining a candidate vaccine for opioid use disorders with extended release naltrexone increases protection against oxycodone induced behavioral effects and toxicity" ["volume"]=> string(3) "374" ["issue"]=> string(1) "3" ["pages"]=> string(7) "392-403" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "32586850" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.120.000014" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.120.000014" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7430456" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32586850" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32586850" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7430456;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/03/18 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/06/18 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/06/27 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/11/06 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/06/27 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(4) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.120.000014" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/09/01 00:00" ["sortfirstauthor"]=> string(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [32439214]=> array(43) { ["uid"]=> string(8) "32439214" ["pubdate"]=> string(11) "2020 Jun 19" ["epubdate"]=> string(11) "2020 May 19" ["source"]=> string(7) "Vaccine" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Gradinati V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Abbaraju S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(6) "Amin R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Gilger B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(12) "Velagaleti P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(106) "Polymer-mediated delivery of vaccines to treat opioid use disorders and to reduce opioid-induced toxicity." ["sorttitle"]=> string(105) "polymer mediated delivery of vaccines to treat opioid use disorders and to reduce opioid induced toxicity" ["volume"]=> string(2) "38" ["issue"]=> string(2) "30" ["pages"]=> string(9) "4704-4712" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "32439214" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(20)30646-0" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2020.05.027" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC8268746" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1713463" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32439214" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32439214" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC8268746;manuscript-id: NIHMS1713463;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/03/20 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/05/05 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/05/09 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/05/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/04/28 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/05/23 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2020.05.027" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/06/19 00:00" ["sortfirstauthor"]=> string(11) "Gradinati V" ["vernaculartitle"]=> string(0) "" } [32283290]=> array(43) { ["uid"]=> string(8) "32283290" ["pubdate"]=> string(8) "2020 Jul" ["epubdate"]=> string(11) "2020 Apr 10" ["source"]=> string(17) "Brain Behav Immun" ["authors"]=> array(1) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(71) "Is the opioid use disorder epidemic impacting our immunological health?" ["sorttitle"]=> string(70) "is the opioid use disorder epidemic impacting our immunological health" ["volume"]=> string(2) "87" ["issue"]=> string(0) "" ["pages"]=> string(7) "203-204" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8800478" ["issn"]=> string(9) "0889-1591" ["essn"]=> string(9) "1090-2139" ["pubtype"]=> array(2) { [0]=> string(7) "Comment" [1]=> 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) "32283290" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0889-1591(20)30487-6" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.bbi.2020.04.022" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32283290" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32283290" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2020/04/06 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/04/09 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/04/14 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/11/27 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/04/14 06:00" } } ["references"]=> array(1) { [0]=> array(4) { ["refsource"]=> string(38) "Brain Behav Immun. 2020 Jul;87:725-738" ["reftype"]=> string(10) "Comment on" ["pmid"]=> int(32165150) ["note"]=> string(0) "" } } ["attributes"]=> array(0) { } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(29) "Brain, behavior, and immunity" ["elocationid"]=> string(30) "doi: 10.1016/j.bbi.2020.04.022" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/07/01 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [32079024]=> array(43) { ["uid"]=> string(8) "32079024" ["pubdate"]=> string(8) "2020 Oct" ["epubdate"]=> string(11) "2020 Feb 20" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(10) "Lefevre EM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pisansky MT" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Toddes C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(6) "Tian L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Kono TJY" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Rothwell PE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Rothwell PE" ["title"]=> string(113) "Interruption of continuous opioid exposure exacerbates drug-evoked adaptations in the mesolimbic dopamine system." ["sorttitle"]=> string(112) "interruption of continuous opioid exposure exacerbates drug evoked adaptations in the mesolimbic dopamine system" ["volume"]=> string(2) "45" ["issue"]=> string(2) "11" ["pages"]=> string(9) "1781-1792" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["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) "32079024" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41386-020-0643-x" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41386-020-0643-x" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7608117" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "32079024" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "32079024" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC7608117;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/07/03 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2020/02/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2020/02/10 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2020/02/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/06/24 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2020/02/21 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(13) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(30) "doi: 10.1038/s41386-020-0643-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) "2020/10/01 00:00" ["sortfirstauthor"]=> string(10) "Lefevre EM" ["vernaculartitle"]=> string(0) "" } [31830773]=> array(43) { ["uid"]=> string(8) "31830773" ["pubdate"]=> string(8) "2020 Nov" ["epubdate"]=> string(11) "2019 Dec 12" ["source"]=> string(11) "Addict Biol" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(13) "Fulenwider HD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Nennig SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Hafeez H" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Price ME" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Cheng K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Rice KC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Manvich DF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Schank JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Schank JR" ["title"]=> string(94) "Sex differences in oral oxycodone self-administration and stress-primed reinstatement in rats." ["sorttitle"]=> string(93) "sex differences in oral oxycodone self administration and stress primed reinstatement in rats" ["volume"]=> string(2) "25" ["issue"]=> string(1) "6" ["pages"]=> string(6) "e12822" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9604935" ["issn"]=> string(9) "1355-6215" ["essn"]=> string(9) "1369-1600" ["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) "31830773" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1111/adb.12822" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7289656" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1043007" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "31830773" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "31830773" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7289656;manuscript-id: NIHMS1043007;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/03/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2019/07/08 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/07/18 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/12/13 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2021/09/29 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/12/13 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(8) ["fulljournalname"]=> string(17) "Addiction biology" ["elocationid"]=> string(22) "doi: 10.1111/adb.12822" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2020/11/01 00:00" ["sortfirstauthor"]=> string(13) "Fulenwider HD" ["vernaculartitle"]=> string(0) "" } [31497753]=> array(43) { ["uid"]=> string(8) "31497753" ["pubdate"]=> string(11) "2019 Aug 19" ["epubdate"]=> string(11) "2019 Jul 25" ["source"]=> string(18) "ACS Appl Bio Mater" ["authors"]=> array(14) { [0]=> array(3) { ["name"]=> string(10) "Kassick AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Allen HN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Yerneni SS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(6) "Pary F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Kovaliov M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Cheng C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Tomycz ND" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(10) "Whiting DM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Nelson TL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(8) "Feasel M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(11) "Campbell PG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [12]=> array(3) { ["name"]=> string(8) "Kolber B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [13]=> array(3) { ["name"]=> string(9) "Averick S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Averick S" ["title"]=> string(80) "Covalent Poly(lactic acid) Nanoparticles for the Sustained Delivery of Naloxone." ["sorttitle"]=> string(78) "covalent poly lactic acid nanoparticles for the sustained delivery of naloxone" ["volume"]=> string(1) "2" ["issue"]=> string(1) "8" ["pages"]=> string(9) "3418-3428" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101729147" ["issn"]=> string(0) "" ["essn"]=> string(9) "2576-6422" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(6) "PubMed" ["pubstatus"]=> string(3) "256" ["articleids"]=> array(7) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "31497753" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1021/acsabm.9b00380" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6731033" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1048300" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "31497753" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "31497753" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC6731033;manuscript-id: NIHMS1048300;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/09/10 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/09/10 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/09/10 06:01" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(4) ["fulljournalname"]=> string(25) "ACS applied bio materials" ["elocationid"]=> string(27) "doi: 10.1021/acsabm.9b00380" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/08/19 00:00" ["sortfirstauthor"]=> string(10) "Kassick AJ" ["vernaculartitle"]=> string(0) "" } [31173759]=> array(43) { ["uid"]=> string(8) "31173759" ["pubdate"]=> string(10) "2019 Nov 1" ["epubdate"]=> string(10) "2019 Jun 4" ["source"]=> string(17) "Neuropharmacology" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Comer SD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(8) "Comer SD" ["title"]=> string(87) "Development of vaccines to treat opioid use disorders and reduce incidence of overdose." ["sorttitle"]=> string(86) "development of vaccines to treat opioid use disorders and reduce incidence of overdose" ["volume"]=> string(3) "158" ["issue"]=> string(0) "" ["pages"]=> string(6) "107662" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0236217" ["issn"]=> string(9) "0028-3908" ["essn"]=> string(9) "1873-7064" ["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) "31173759" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0028-3908(19)30044-9" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1016/j.neuropharm.2019.06.001" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6919211" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1532395" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "31173759" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "31173759" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC6919211;manuscript-id: NIHMS1532395;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2019/01/31 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2019/05/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2019/06/02 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/06/08 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/07/21 06:00" } [5]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/06/08 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(21) ["fulljournalname"]=> string(17) "Neuropharmacology" ["elocationid"]=> string(37) "doi: 10.1016/j.neuropharm.2019.06.001" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/11/01 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [31018096]=> array(43) { ["uid"]=> string(8) "31018096" ["pubdate"]=> string(10) "2019 Jun 3" ["epubdate"]=> string(11) "2019 May 14" ["source"]=> string(9) "Mol Pharm" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(7) "King SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Roslawski MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Birnbaum AK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Hassler C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Carroll FI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Winston S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(152) "Formulation and Characterization of Conjugate Vaccines to Reduce Opioid Use Disorders Suitable for Pharmaceutical Manufacturing and Clinical Evaluation." ["sorttitle"]=> string(151) "formulation and characterization of conjugate vaccines to reduce opioid use disorders suitable for pharmaceutical manufacturing and clinical evaluation" ["volume"]=> string(2) "16" ["issue"]=> string(1) "6" ["pages"]=> string(9) "2364-2375" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101197791" ["issn"]=> string(9) "1543-8384" ["essn"]=> string(9) "1543-8392" ["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) "31018096" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(33) "10.1021/acs.molpharmaceut.8b01296" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6598681" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1034542" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "31018096" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "31018096" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC6598681;manuscript-id: NIHMS1034542;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/04/25 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/03/17 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/04/25 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(9) ["fulljournalname"]=> string(23) "Molecular pharmaceutics" ["elocationid"]=> string(38) "doi: 10.1021/acs.molpharmaceut.8b01296" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2019/06/03 00:00" ["sortfirstauthor"]=> string(12) "Baruffaldi F" ["vernaculartitle"]=> string(0) "" } [30625019]=> array(43) { ["uid"]=> string(8) "30625019" ["pubdate"]=> string(4) "2019" ["epubdate"]=> string(11) "2019 Feb 20" ["source"]=> string(21) "Hum Vaccin Immunother" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Schmiel SE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Accetturo C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Mueller DL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(194) "Alum adjuvant is more effective than MF59 at prompting early germinal center formation in response to peptide-protein conjugates and enhancing efficacy of a vaccine against opioid use disorders." ["sorttitle"]=> string(193) "alum adjuvant is more effective than mf59 at prompting early germinal center formation in response to peptide protein conjugates and enhancing efficacy of a vaccine against opioid use disorders" ["volume"]=> string(2) "15" ["issue"]=> string(1) "4" ["pages"]=> string(7) "909-917" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101572652" ["issn"]=> string(9) "2164-5515" ["essn"]=> string(9) "2164-554X" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["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) "30625019" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1080/21645515.2018.1558697" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6605845" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30625019" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30625019" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6605845;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2019/01/10 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2020/02/29 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2019/01/10 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(9) ["fulljournalname"]=> string(35) "Human vaccines & immunotherapeutics" ["elocationid"]=> string(34) "doi: 10.1080/21645515.2018.1558697" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(10) "Robinson C" ["vernaculartitle"]=> string(0) "" } [30409833]=> array(43) { ["uid"]=> string(8) "30409833" ["pubdate"]=> string(8) "2019 Feb" ["epubdate"]=> string(10) "2018 Nov 8" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Peterson SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Le Naour M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Harmon TM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(13) "Vigliaturo JR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(111) "A Fentanyl Vaccine Alters Fentanyl Distribution and Protects against Fentanyl-Induced Effects in Mice and Rats." ["sorttitle"]=> string(108) "fentanyl vaccine alters fentanyl distribution and protects against fentanyl induced effects in mice and rats" ["volume"]=> string(3) "368" ["issue"]=> string(1) "2" ["pages"]=> string(7) "282-291" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "30409833" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.118.253674" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.118.253674" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6346379" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30409833" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30409833" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6346379;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2018/09/19 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/11/07 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/11/10 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/11/05 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/11/10 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(28) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.118.253674" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [30405185]=> array(43) { ["uid"]=> string(8) "30405185" ["pubdate"]=> string(8) "2019 Jan" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(70) "Vaccines to treat opioid use disorders and to reduce opioid overdoses." ["sorttitle"]=> string(69) "vaccines to treat opioid use disorders and to reduce opioid overdoses" ["volume"]=> string(2) "44" ["issue"]=> string(1) "1" ["pages"]=> string(7) "217-218" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["pubtype"]=> array(1) { [0]=> string(4) "News" } ["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) "30405185" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1038/s41386-018-0197-3" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1038/s41386-018-0197-3" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6235930" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30405185" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30405185" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6235930;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/11/09 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/02/12 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/11/09 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(0) { } ["pmcrefcount"]=> int(11) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(30) "doi: 10.1038/s41386-018-0197-3" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(7) "Baehr C" ["vernaculartitle"]=> string(0) "" } [30240216]=> array(43) { ["uid"]=> string(8) "30240216" ["pubdate"]=> string(10) "2018 Nov 5" ["epubdate"]=> string(11) "2018 Oct 10" ["source"]=> string(9) "Mol Pharm" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Kelcher AH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Gradinati V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Limkar A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Roslawski M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Birnbaum A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(6) "Lees A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Hassler C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(8) "Runyon S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(143) "Preclinical Efficacy and Characterization of Candidate Vaccines for Treatment of Opioid Use Disorders Using Clinically Viable Carrier Proteins." ["sorttitle"]=> string(142) "preclinical efficacy and characterization of candidate vaccines for treatment of opioid use disorders using clinically viable carrier proteins" ["volume"]=> string(2) "15" ["issue"]=> string(2) "11" ["pages"]=> string(9) "4947-4962" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101197791" ["issn"]=> string(9) "1543-8384" ["essn"]=> string(9) "1543-8392" ["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) "30240216" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(33) "10.1021/acs.molpharmaceut.8b00592" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6361123" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1003081" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "30240216" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "30240216" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC6361123;manuscript-id: NIHMS1003081;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/09/22 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/08/27 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/09/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(16) ["fulljournalname"]=> string(23) "Molecular pharmaceutics" ["elocationid"]=> string(38) "doi: 10.1021/acs.molpharmaceut.8b00592" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2018/11/05 00:00" ["sortfirstauthor"]=> string(12) "Baruffaldi F" ["vernaculartitle"]=> string(0) "" } [29615715]=> array(43) { ["uid"]=> string(8) "29615715" ["pubdate"]=> string(10) "2018 Apr 3" ["epubdate"]=> string(10) "2018 Apr 3" ["source"]=> string(7) "Sci Rep" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Robinson C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Carter P" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(8) "Seelig D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Baehr C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(117) "Blocking interleukin-4 enhances efficacy of vaccines for treatment of opioid abuse and prevention of opioid overdose." ["sorttitle"]=> string(116) "blocking interleukin 4 enhances efficacy of vaccines for treatment of opioid abuse and prevention of opioid overdose" ["volume"]=> string(1) "8" ["issue"]=> string(1) "1" ["pages"]=> string(4) "5508" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101563288" ["issn"]=> string(0) "" ["essn"]=> string(9) "2045-2322" ["pubtype"]=> array(1) { [0]=> string(15) "Journal Article" } ["recordstatus"]=> string(28) "PubMed - indexed for MEDLINE" ["pubstatus"]=> string(1) "3" ["articleids"]=> array(7) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "29615715" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(26) "10.1038/s41598-018-23777-6" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(26) "10.1038/s41598-018-23777-6" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5882912" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "29615715" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "29615715" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC5882912;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/12/29 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/03/20 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/04/05 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/04/05 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/10/03 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(15) ["fulljournalname"]=> string(18) "Scientific reports" ["elocationid"]=> string(31) "doi: 10.1038/s41598-018-23777-6" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2018/04/03 00:00" ["sortfirstauthor"]=> string(12) "Laudenbach M" ["vernaculartitle"]=> string(0) "" } [29535156]=> array(43) { ["uid"]=> string(8) "29535156" ["pubdate"]=> string(8) "2018 May" ["epubdate"]=> string(11) "2018 Mar 13" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(11) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Peterson SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Roslawski MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Birnbaum AK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Carroll FI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Winston S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(83) "Opioid Dose- and Route-Dependent Efficacy of Oxycodone and Heroin Vaccines in Rats." ["sorttitle"]=> string(81) "opioid dose and route dependent efficacy of oxycodone and heroin vaccines in rats" ["volume"]=> string(3) "365" ["issue"]=> string(1) "2" ["pages"]=> string(7) "346-353" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "29535156" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.117.247049" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.117.247049" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5884377" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "29535156" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "29535156" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC5884377;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/12/08 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2018/03/12 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2018/03/15 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2019/05/23 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2018/03/15 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(23) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.117.247049" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [29194445]=> array(43) { ["uid"]=> string(8) "29194445" ["pubdate"]=> string(4) "2017" ["epubdate"]=> string(10) "2017 Dec 1" ["source"]=> string(8) "PLoS One" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Peterson SJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Carroll FI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Comer SD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Navarro HA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Langston TL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(9) "Winston S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(112) "Safety and efficacy of an oxycodone vaccine: Addressing some of the unique considerations posed by opioid abuse." ["sorttitle"]=> string(110) "safety and efficacy of an oxycodone vaccine addressing some of the unique considerations posed by opioid abuse" ["volume"]=> string(2) "12" ["issue"]=> string(2) "12" ["pages"]=> string(8) "e0184876" ["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) "29194445" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1371/journal.pone.0184876" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "PONE-D-17-24523" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5711015" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "29194445" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "29194445" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC5711015;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2017/06/28 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/09/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/12/02 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/12/02 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2017/12/27 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(25) ["fulljournalname"]=> string(8) "PloS one" ["elocationid"]=> string(33) "doi: 10.1371/journal.pone.0184876" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2017/12/01 00:00" ["sortfirstauthor"]=> string(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [28127624]=> array(43) { ["uid"]=> string(8) "28127624" ["pubdate"]=> string(8) "2017 Mar" ["epubdate"]=> string(11) "2017 Jan 27" ["source"]=> string(25) "Psychopharmacology (Berl)" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(11) "Mavrikaki M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(6) "Page S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Potter D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Chartoff E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Chartoff E" ["title"]=> string(54) "Oxycodone self-administration in male and female rats." ["sorttitle"]=> string(53) "oxycodone self administration in male and female rats" ["volume"]=> string(3) "234" ["issue"]=> string(1) "6" ["pages"]=> string(7) "977-987" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7608025" ["issn"]=> string(9) "0033-3158" ["essn"]=> string(9) "1432-2072" ["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) "28127624" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1007/s00213-017-4536-6" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(25) "10.1007/s00213-017-4536-6" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC7250466" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(12) "NIHMS1590402" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "28127624" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "28127624" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(47) "pmc-id: PMC7250466;manuscript-id: NIHMS1590402;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2016/08/30 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2017/01/10 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2017/01/28 06:00" } [3]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2017/11/29 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2017/01/28 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(35) ["fulljournalname"]=> string(18) "Psychopharmacology" ["elocationid"]=> string(30) "doi: 10.1007/s00213-017-4536-6" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(11) "Mavrikaki M" ["vernaculartitle"]=> string(0) "" } [27441896]=> array(43) { ["uid"]=> string(8) "27441896" ["pubdate"]=> string(8) "2016 Dec" ["epubdate"]=> string(11) "2016 Jul 21" ["source"]=> string(21) "Hum Vaccin Immunother" ["authors"]=> array(1) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(78) "Biologics to treat substance use disorders: Current status and new directions." ["sorttitle"]=> string(76) "biologics to treat substance use disorders current status and new directions" ["volume"]=> string(2) "12" ["issue"]=> string(2) "12" ["pages"]=> string(9) "3005-3019" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101572652" ["issn"]=> string(9) "2164-5515" ["essn"]=> string(9) "2164-554X" ["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) "27441896" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1080/21645515.2016.1212785" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC5215474" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "27441896" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "27441896" } [5]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC5215474;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2016/07/22 06:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2017/10/05 06:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2016/07/22 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(22) ["fulljournalname"]=> string(35) "Human vaccines & immunotherapeutics" ["elocationid"]=> string(34) "doi: 10.1080/21645515.2016.1212785" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [26409811]=> array(43) { ["uid"]=> string(8) "26409811" ["pubdate"]=> string(11) "2015 Nov 17" ["epubdate"]=> string(11) "2015 Sep 26" ["source"]=> string(7) "Vaccine" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Carroll FI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(122) "The frequency of early-activated hapten-specific B cell subsets predicts the efficacy of vaccines for nicotine dependence." ["sorttitle"]=> string(117) "frequency of early activated hapten specific b cell subsets predicts the efficacy of vaccines for nicotine dependence" ["volume"]=> string(2) "33" ["issue"]=> string(2) "46" ["pages"]=> string(6) "6332-9" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "26409811" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(15)01273-6" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2015.09.015" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4644437" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS729093" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "26409811" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "26409811" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4644437;manuscript-id: NIHMS729093;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/06/25 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2015/09/01 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/09/08 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/09/28 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/09/28 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2016/08/19 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(10) ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2015.09.015" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/11/17 00:00" ["sortfirstauthor"]=> string(12) "Laudenbach M" ["vernaculartitle"]=> string(0) "" } [25972483]=> array(43) { ["uid"]=> string(8) "25972483" ["pubdate"]=> string(11) "2015 Jun 15" ["epubdate"]=> string(11) "2015 May 13" ["source"]=> string(9) "J Immunol" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Baruffaldi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Vervacke JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(12) "Distefano MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Titcombe PJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Mueller DL" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(7) "Tubo NJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(11) "Griffith TS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(155) "The frequency of naive and early-activated hapten-specific B cell subsets dictates the efficacy of a therapeutic vaccine against prescription opioid abuse." ["sorttitle"]=> string(150) "frequency of naive and early activated hapten specific b cell subsets dictates the efficacy of a therapeutic vaccine against prescription opioid abuse" ["volume"]=> string(3) "194" ["issue"]=> string(2) "12" ["pages"]=> string(7) "5926-36" ["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) "25972483" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(16) "jimmunol.1500385" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(24) "10.4049/jimmunol.1500385" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4458396" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS680571" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "25972483" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "25972483" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4458396;manuscript-id: NIHMS680571;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2015/02/18 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2015/04/07 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/05/15 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/05/15 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/08/21 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(23) ["fulljournalname"]=> string(45) "Journal of immunology (Baltimore, Md. : 1950)" ["elocationid"]=> string(29) "doi: 10.4049/jimmunol.1500385" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/06/15 00:00" ["sortfirstauthor"]=> string(12) "Laudenbach M" ["vernaculartitle"]=> string(0) "" } [25948263]=> array(43) { ["uid"]=> string(8) "25948263" ["pubdate"]=> string(10) "2015 May 6" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(12) { [0]=> array(3) { ["name"]=> string(9) "Kotecki L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Hearing M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "McCall NM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(29) "Marron Fernandez de Velasco E" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Arora D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Victoria NC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(8) "Munoz MB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(5) "Xia Z" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(12) "Slesinger PA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [10]=> array(3) { ["name"]=> string(9) "Weaver CD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [11]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Wickman K" ["title"]=> string(98) "GIRK Channels Modulate Opioid-Induced Motor Activity in a Cell Type- and Subunit-Dependent Manner." ["sorttitle"]=> string(96) "girk channels modulate opioid induced motor activity in a cell type and subunit dependent manner" ["volume"]=> string(2) "35" ["issue"]=> string(2) "18" ["pages"]=> string(7) "7131-42" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["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) "25948263" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "35/18/7131" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.5051-14.2015" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4420781" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "25948263" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "25948263" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4420781;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2015/05/08 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2015/05/08 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/07/25 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(30) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(35) "doi: 10.1523/JNEUROSCI.5051-14.2015" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2015/05/06 00:00" ["sortfirstauthor"]=> string(9) "Kotecki L" ["vernaculartitle"]=> string(0) "" } [25025380]=> array(43) { ["uid"]=> string(8) "25025380" ["pubdate"]=> string(4) "2014" ["epubdate"]=> string(11) "2014 Jul 15" ["source"]=> string(8) "PLoS One" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Potter DN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Chartoff EH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(7) "Tally L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "LeSage MG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "LeSage MG" ["title"]=> string(127) "Effects of an oxycodone conjugate vaccine on oxycodone self-administration and oxycodone-induced brain gene expression in rats." ["sorttitle"]=> string(126) "effects of an oxycodone conjugate vaccine on oxycodone self administration and oxycodone induced brain gene expression in rats" ["volume"]=> string(1) "9" ["issue"]=> string(1) "7" ["pages"]=> string(7) "e101807" ["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) "25025380" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1371/journal.pone.0101807" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "PONE-D-14-15951" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4099132" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "25025380" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "25025380" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4099132;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2014/04/09 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2014/06/11 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/07/16 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/07/16 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/03/31 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(31) ["fulljournalname"]=> string(8) "PloS one" ["elocationid"]=> string(33) "doi: 10.1371/journal.pone.0101807" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2014/07/15 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [24797666]=> array(43) { ["uid"]=> string(8) "24797666" ["pubdate"]=> string(4) "2014" ["epubdate"]=> string(10) "2014 May 5" ["source"]=> string(8) "PLoS One" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Vervacke JS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Distefano MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(139) "Effect of currently approved carriers and adjuvants on the pre-clinical efficacy of a conjugate vaccine against oxycodone in mice and rats." ["sorttitle"]=> string(138) "effect of currently approved carriers and adjuvants on the pre clinical efficacy of a conjugate vaccine against oxycodone in mice and rats" ["volume"]=> string(1) "9" ["issue"]=> string(1) "5" ["pages"]=> string(6) "e96547" ["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) "24797666" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1371/journal.pone.0096547" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "PONE-D-14-01601" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4010527" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "24797666" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "24797666" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC4010527;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2014/01/12 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2014/04/08 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/05/07 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/05/07 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(28) ["fulljournalname"]=> string(8) "PloS one" ["elocationid"]=> string(33) "doi: 10.1371/journal.pone.0096547" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2014/05/05 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [24462800]=> array(43) { ["uid"]=> string(8) "24462800" ["pubdate"]=> string(8) "2014 Mar" ["epubdate"]=> string(11) "2014 Jan 23" ["source"]=> string(17) "J Immunol Methods" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(9) "Taylor JJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(12) "Laudenbach M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Jenkins MK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(11) "Pravetoni M" ["title"]=> string(89) "Hapten-specific naïve B cells are biomarkers of vaccine efficacy against drugs of abuse." ["sorttitle"]=> string(87) "hapten specific na ve b cells are biomarkers of vaccine efficacy against drugs of abuse" ["volume"]=> string(3) "405" ["issue"]=> string(0) "" ["pages"]=> string(5) "74-86" ["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(8) { [0]=> array(3) { ["idtype"]=> string(6) "pubmed" ["idtypen"]=> int(1) ["value"]=> string(8) "24462800" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0022-1759(14)00020-9" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.jim.2014.01.010" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4018303" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS560531" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "24462800" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "24462800" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4018303;manuscript-id: NIHMS560531;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/11/21 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2014/01/13 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2014/01/13 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2014/01/28 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2014/01/28 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2014/06/03 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(19) ["fulljournalname"]=> string(32) "Journal of immunological methods" ["elocationid"]=> string(30) "doi: 10.1016/j.jim.2014.01.010" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2014/03/01 00:00" ["sortfirstauthor"]=> string(9) "Taylor JJ" ["vernaculartitle"]=> string(0) "" } [24312662]=> array(43) { ["uid"]=> string(8) "24312662" ["pubdate"]=> string(4) "2013" ["epubdate"]=> string(10) "2013 Dec 2" ["source"]=> string(8) "PLoS One" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(10) "Cornish KE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(14) "de Villiers SH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(149) "Immunogenicity of individual vaccine components in a bivalent nicotine vaccine differ according to vaccine formulation and administration conditions." ["sorttitle"]=> string(148) "immunogenicity of individual vaccine components in a bivalent nicotine vaccine differ according to vaccine formulation and administration conditions" ["volume"]=> string(1) "8" ["issue"]=> string(2) "12" ["pages"]=> string(6) "e82557" ["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) "24312662" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(28) "10.1371/journal.pone.0082557" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "PONE-D-13-30595" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3846984" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "24312662" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "24312662" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3846984;" } } ["history"]=> array(5) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/07/24 00:00" } [1]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/10/24 00:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/12/07 06:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/12/07 06:00" } [4]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2015/02/20 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(14) ["fulljournalname"]=> string(8) "PloS one" ["elocationid"]=> string(33) "doi: 10.1371/journal.pone.0082557" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/12/02 00:00" ["sortfirstauthor"]=> string(10) "Cornish KE" ["vernaculartitle"]=> string(0) "" } [24176492]=> array(43) { ["uid"]=> string(8) "24176492" ["pubdate"]=> string(11) "2013 Dec 16" ["epubdate"]=> string(11) "2013 Oct 29" ["source"]=> string(7) "Vaccine" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(14) "de Villiers SH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Cornish KE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Troska AJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(123) "Increased efficacy of a trivalent nicotine vaccine compared to a dose-matched monovalent vaccine when formulated with alum." ["sorttitle"]=> string(122) "increased efficacy of a trivalent nicotine vaccine compared to a dose matched monovalent vaccine when formulated with alum" ["volume"]=> string(2) "31" ["issue"]=> string(2) "52" ["pages"]=> string(7) "6185-93" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "24176492" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(13)01429-1" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2013.10.051" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC4019346" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS570174" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "24176492" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "24176492" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC4019346;manuscript-id: NIHMS570174;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2013/06/20 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2013/09/11 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2013/10/16 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2013/11/02 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2013/11/02 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2014/07/16 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(25) ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2013.10.051" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/12/16 00:00" ["sortfirstauthor"]=> string(14) "de Villiers SH" ["vernaculartitle"]=> string(0) "" } [23249238]=> array(43) { ["uid"]=> string(8) "23249238" ["pubdate"]=> string(11) "2013 Feb 14" ["epubdate"]=> string(11) "2013 Jan 15" ["source"]=> string(10) "J Med Chem" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Le Naour M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Harmon TM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Hawley TM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(13) "Portoghese PS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(128) "Reduced antinociception of opioids in rats and mice by vaccination with immunogens containing oxycodone and hydrocodone haptens." ["sorttitle"]=> string(127) "reduced antinociception of opioids in rats and mice by vaccination with immunogens containing oxycodone and hydrocodone haptens" ["volume"]=> string(2) "56" ["issue"]=> string(1) "3" ["pages"]=> string(6) "915-23" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "9716531" ["issn"]=> string(9) "0022-2623" ["essn"]=> string(9) "1520-4804" ["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) "23249238" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(17) "10.1021/jm3013745" } [2]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3791856" } [3]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS516533" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23249238" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23249238" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3791856;manuscript-id: NIHMS516533;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/12/20 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/12/20 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/04/23 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(33) ["fulljournalname"]=> string(30) "Journal of medicinal chemistry" ["elocationid"]=> string(22) "doi: 10.1021/jm3013745" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [23220743]=> array(43) { ["uid"]=> string(8) "23220743" ["pubdate"]=> string(8) "2013 Feb" ["epubdate"]=> string(10) "2012 Dec 7" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Harris AC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Birnbaum AK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(125) "Selective effects of a morphine conjugate vaccine on heroin and metabolite distribution and heroin-induced behaviors in rats." ["sorttitle"]=> string(124) "selective effects of a morphine conjugate vaccine on heroin and metabolite distribution and heroin induced behaviors in rats" ["volume"]=> string(3) "344" ["issue"]=> string(1) "2" ["pages"]=> string(7) "397-406" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "23220743" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.112.201194" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.112.201194" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3558830" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23220743" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23220743" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3558830;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/12/11 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/12/12 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/03/30 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(33) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.112.201194" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2013/02/01 00:00" ["sortfirstauthor"]=> string(10) "Raleigh MD" ["vernaculartitle"]=> string(0) "" } [23123021]=> array(43) { ["uid"]=> string(8) "23123021" ["pubdate"]=> string(11) "2012 Dec 17" ["epubdate"]=> string(11) "2012 Oct 30" ["source"]=> string(7) "Vaccine" ["authors"]=> array(5) { [0]=> array(3) { ["name"]=> string(6) "Chen X" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Bhayana B" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(5) "Wu MX" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(5) "Wu MX" ["title"]=> string(94) "High immunogenicity of nicotine vaccines obtained by intradermal delivery with safe adjuvants." ["sorttitle"]=> string(93) "high immunogenicity of nicotine vaccines obtained by intradermal delivery with safe adjuvants" ["volume"]=> string(2) "31" ["issue"]=> string(1) "1" ["pages"]=> string(6) "159-64" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "23123021" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(12)01529-0" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2012.10.069" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3557791" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS421511" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "23123021" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "23123021" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3557791;manuscript-id: NIHMS421511;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2012/06/01 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2012/10/16 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/10/21 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/11/06 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/11/06 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/05/11 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(32) ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2012.10.069" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/12/17 00:00" ["sortfirstauthor"]=> string(6) "Chen X" ["vernaculartitle"]=> string(0) "" } [22583811]=> array(43) { ["uid"]=> string(8) "22583811" ["pubdate"]=> string(11) "2012 Jun 29" ["epubdate"]=> string(11) "2012 May 11" ["source"]=> string(7) "Vaccine" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Le Naour M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Harmon TM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(8) "Jones JM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(11) "Birnbaum AK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(13) "Portoghese PS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(133) "Co-administration of morphine and oxycodone vaccines reduces the distribution of 6-monoacetylmorphine and oxycodone to brain in rats." ["sorttitle"]=> string(132) "co administration of morphine and oxycodone vaccines reduces the distribution of 6 monoacetylmorphine and oxycodone to brain in rats" ["volume"]=> string(2) "30" ["issue"]=> string(2) "31" ["pages"]=> string(7) "4617-24" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8406899" ["issn"]=> string(9) "0264-410X" ["essn"]=> string(9) "1873-2518" ["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) "22583811" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0264-410X(12)00670-6" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1016/j.vaccine.2012.04.101" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3372705" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS375590" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "22583811" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "22583811" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3372705;manuscript-id: NIHMS375590;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2012/03/15 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2012/04/27 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/04/29 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/05/16 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/05/16 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/10/24 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(44) ["fulljournalname"]=> string(7) "Vaccine" ["elocationid"]=> string(34) "doi: 10.1016/j.vaccine.2012.04.101" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/06/29 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [22503967]=> array(43) { ["uid"]=> string(8) "22503967" ["pubdate"]=> string(8) "2012 Jul" ["epubdate"]=> string(10) "2012 Apr 4" ["source"]=> string(23) "Pharmacol Biochem Behav" ["authors"]=> array(4) { [0]=> array(3) { ["name"]=> string(9) "LeSage MG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Shelley D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(135) "Enhanced attenuation of nicotine discrimination in rats by combining nicotine-specific antibodies with a nicotinic receptor antagonist." ["sorttitle"]=> string(134) "enhanced attenuation of nicotine discrimination in rats by combining nicotine specific antibodies with a nicotinic receptor antagonist" ["volume"]=> string(3) "102" ["issue"]=> string(1) "1" ["pages"]=> string(6) "157-62" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0367050" ["issn"]=> string(9) "0091-3057" ["essn"]=> string(9) "1873-5177" ["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) "22503967" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0091-3057(12)00097-4" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.pbb.2012.03.026" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3357089" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS368342" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "22503967" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "22503967" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3357089;manuscript-id: NIHMS368342;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/12/20 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2012/03/23 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2012/03/28 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/04/17 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/04/17 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2013/03/15 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(8) ["fulljournalname"]=> string(40) "Pharmacology, biochemistry, and behavior" ["elocationid"]=> string(30) "doi: 10.1016/j.pbb.2012.03.026" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/07/01 00:00" ["sortfirstauthor"]=> string(9) "LeSage MG" ["vernaculartitle"]=> string(0) "" } [22262924]=> array(43) { ["uid"]=> string(8) "22262924" ["pubdate"]=> string(8) "2012 Apr" ["epubdate"]=> string(11) "2012 Jan 18" ["source"]=> string(20) "J Pharmacol Exp Ther" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(10) "Le Naour M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Harmon TM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Tucker AM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(13) "Portoghese PS" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(132) "An oxycodone conjugate vaccine elicits drug-specific antibodies that reduce oxycodone distribution to brain and hot-plate analgesia." ["sorttitle"]=> string(128) "oxycodone conjugate vaccine elicits drug specific antibodies that reduce oxycodone distribution to brain and hot plate analgesia" ["volume"]=> string(3) "341" ["issue"]=> string(1) "1" ["pages"]=> string(6) "225-32" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0376362" ["issn"]=> string(9) "0022-3565" ["essn"]=> string(9) "1521-0103" ["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) "22262924" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(15) "jpet.111.189506" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1124/jpet.111.189506" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3310692" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "22262924" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "22262924" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3310692;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2012/01/21 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2012/01/21 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/05/05 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(46) ["fulljournalname"]=> string(57) "The Journal of pharmacology and experimental therapeutics" ["elocationid"]=> string(28) "doi: 10.1124/jpet.111.189506" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [22100986]=> array(43) { ["uid"]=> string(8) "22100986" ["pubdate"]=> string(11) "2012 Feb 15" ["epubdate"]=> string(11) "2011 Nov 15" ["source"]=> string(17) "Biochem Pharmacol" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Keyler DE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(13) "Pidaparthi RR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Carroll FI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Runyon SP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(11) "Murtaugh MP" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Earley CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(95) "Structurally distinct nicotine immunogens elicit antibodies with non-overlapping specificities." ["sorttitle"]=> string(94) "structurally distinct nicotine immunogens elicit antibodies with non overlapping specificities" ["volume"]=> string(2) "83" ["issue"]=> string(1) "4" ["pages"]=> string(6) "543-50" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0101032" ["issn"]=> string(9) "0006-2952" ["essn"]=> string(9) "1873-2968" ["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) "22100986" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-2952(11)00821-5" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.bcp.2011.11.004" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3259188" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS338697" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "22100986" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "22100986" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3259188;manuscript-id: NIHMS338697;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/10/05 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2011/11/03 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/11/04 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/11/22 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/11/22 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2012/03/16 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(37) ["fulljournalname"]=> string(24) "Biochemical pharmacology" ["elocationid"]=> string(30) "doi: 10.1016/j.bcp.2011.11.004" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2012/02/15 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [21333633]=> array(43) { ["uid"]=> string(8) "21333633" ["pubdate"]=> string(10) "2011 May 1" ["epubdate"]=> string(11) "2011 Feb 17" ["source"]=> string(17) "Biochem Pharmacol" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Keyler DE" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Raleigh MD" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Harris AC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(9) "Lesage MG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Mattson CK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(12) "Pettersson S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Pentel PR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Pentel PR" ["title"]=> string(114) "Vaccination against nicotine alters the distribution of nicotine delivered via cigarette smoke inhalation to rats." ["sorttitle"]=> string(113) "vaccination against nicotine alters the distribution of nicotine delivered via cigarette smoke inhalation to rats" ["volume"]=> string(2) "81" ["issue"]=> string(1) "9" ["pages"]=> string(7) "1164-70" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0101032" ["issn"]=> string(9) "0006-2952" ["essn"]=> string(9) "1873-2968" ["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) "21333633" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(21) "S0006-2952(11)00108-0" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(25) "10.1016/j.bcp.2011.02.004" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3072463" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS282538" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "21333633" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "21333633" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC3072463;manuscript-id: NIHMS282538;" } } ["history"]=> array(6) { [0]=> array(2) { ["pubstatus"]=> string(8) "received" ["date"]=> string(16) "2011/01/11 00:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "revised" ["date"]=> string(16) "2011/02/08 00:00" } [2]=> array(2) { ["pubstatus"]=> string(8) "accepted" ["date"]=> string(16) "2011/02/09 00:00" } [3]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2011/02/22 06:00" } [4]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2011/02/22 06:00" } [5]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2011/06/07 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(20) ["fulljournalname"]=> string(24) "Biochemical pharmacology" ["elocationid"]=> string(30) "doi: 10.1016/j.bcp.2011.02.004" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2011/05/01 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [20557431]=> array(43) { ["uid"]=> string(8) "20557431" ["pubdate"]=> string(10) "2010 Sep 1" ["epubdate"]=> string(11) "2010 Jun 16" ["source"]=> string(11) "J Neurochem" ["authors"]=> array(8) { [0]=> array(3) { ["name"]=> string(7) "Arora D" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Haluk DM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Kourrich S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(19) "Fernández-Alacid L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Nicolau JC" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Luján R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Wickman K" ["title"]=> string(71) "Altered neurotransmission in the mesolimbic reward system of Girk mice." ["sorttitle"]=> string(70) "altered neurotransmission in the mesolimbic reward system of girk mice" ["volume"]=> string(3) "114" ["issue"]=> string(1) "5" ["pages"]=> string(7) "1487-97" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(8) "2985190R" ["issn"]=> string(9) "0022-3042" ["essn"]=> string(9) "1471-4159" ["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) "20557431" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "JNC6864" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1471-4159.2010.06864.x" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2941778" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS219388" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "20557431" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "20557431" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2941778;manuscript-id: NIHMS219388;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/06/19 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/06/19 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2010/09/14 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(30) ["fulljournalname"]=> string(25) "Journal of neurochemistry" ["elocationid"]=> string(37) "doi: 10.1111/j.1471-4159.2010.06864.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) "2010/09/01 00:00" ["sortfirstauthor"]=> string(7) "Arora D" ["vernaculartitle"]=> string(0) "" } [20043004]=> array(43) { ["uid"]=> string(8) "20043004" ["pubdate"]=> string(8) "2010 Mar" ["epubdate"]=> string(11) "2009 Dec 30" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(11) "Anderson GR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(5) "Cao Y" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Davidson S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(9) "Truong HV" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Thomas MJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(13) "Giesler GJ Jr" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(14) "Martemyanov KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(14) "Martemyanov KA" ["title"]=> string(125) "R7BP complexes with RGS9-2 and RGS7 in the striatum differentially control motor learning and locomotor responses to cocaine." ["sorttitle"]=> string(124) "r7bp complexes with rgs9 2 and rgs7 in the striatum differentially control motor learning and locomotor responses to cocaine" ["volume"]=> string(2) "35" ["issue"]=> string(1) "4" ["pages"]=> string(7) "1040-50" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["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) "20043004" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "npp2009212" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(20) "10.1038/npp.2009.212" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2887292" } [4]=> array(3) { ["idtype"]=> string(3) "mid" ["idtypen"]=> int(8) ["value"]=> string(11) "NIHMS165762" } [5]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "20043004" } [6]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "20043004" } [7]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(46) "pmc-id: PMC2887292;manuscript-id: NIHMS165762;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2010/01/01 06:00" } [1]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2010/01/01 06:00" } [2]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2010/04/29 06:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(30) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["elocationid"]=> string(25) "doi: 10.1038/npp.2009.212" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["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(11) "Anderson GR" ["vernaculartitle"]=> string(0) "" } [18523006]=> array(43) { ["uid"]=> string(8) "18523006" ["pubdate"]=> string(11) "2008 Jun 10" ["epubdate"]=> string(10) "2008 Jun 3" ["source"]=> string(24) "Proc Natl Acad Sci U S A" ["authors"]=> array(9) { [0]=> array(3) { ["name"]=> string(8) "Perry CA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(8) "Teske JA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(8) "Aguado C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Erickson DJ" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(10) "Medrano JF" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(8) "Luján R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Kotz CM" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Wickman K" ["title"]=> string(60) "Predisposition to late-onset obesity in GIRK4 knockout mice." ["sorttitle"]=> string(59) "predisposition to late onset obesity in girk4 knockout mice" ["volume"]=> string(3) "105" ["issue"]=> string(2) "23" ["pages"]=> string(7) "8148-53" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "7505876" ["issn"]=> string(9) "0027-8424" ["essn"]=> string(9) "1091-6490" ["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) "18523006" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "0803261105" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(23) "10.1073/pnas.0803261105" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC2430374" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "18523006" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "18523006" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC2430374;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/06/05 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/06/28 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/06/05 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(20) ["fulljournalname"]=> string(79) "Proceedings of the National Academy of Sciences of the United States of America" ["elocationid"]=> string(28) "doi: 10.1073/pnas.0803261105" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2008/06/10 00:00" ["sortfirstauthor"]=> string(8) "Perry CA" ["vernaculartitle"]=> string(0) "" } [18400906]=> array(43) { ["uid"]=> string(8) "18400906" ["pubdate"]=> string(10) "2008 Apr 9" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(7) { [0]=> array(3) { ["name"]=> string(7) "Cruz HG" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "Berton F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Sollini M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(10) "Blanchet C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(10) "Lüscher C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Lüscher C" ["title"]=> string(70) "Absence and rescue of morphine withdrawal in GIRK/Kir3 knock-out mice." ["sorttitle"]=> string(69) "absence and rescue of morphine withdrawal in girk kir3 knock out mice" ["volume"]=> string(2) "28" ["issue"]=> string(2) "15" ["pages"]=> string(7) "4069-77" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["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) "18400906" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(10) "28/15/4069" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.0267-08.2008" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC3844824" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "18400906" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "18400906" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC3844824;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/04/11 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/05/09 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/04/11 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(31) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["elocationid"]=> string(35) "doi: 10.1523/JNEUROSCI.0267-08.2008" ["doctype"]=> string(8) "citation" ["srccontriblist"]=> array(0) { } ["booktitle"]=> string(0) "" ["medium"]=> string(0) "" ["edition"]=> string(0) "" ["publisherlocation"]=> string(0) "" ["publishername"]=> string(0) "" ["srcdate"]=> string(0) "" ["reportnumber"]=> string(0) "" ["availablefromurl"]=> string(0) "" ["locationlabel"]=> string(0) "" ["doccontriblist"]=> array(0) { } ["docdate"]=> string(0) "" ["bookname"]=> string(0) "" ["chapter"]=> string(0) "" ["sortpubdate"]=> string(16) "2008/04/09 00:00" ["sortfirstauthor"]=> string(7) "Cruz HG" ["vernaculartitle"]=> string(0) "" } [18194467]=> array(43) { ["uid"]=> string(8) "18194467" ["pubdate"]=> string(8) "2008 Jul" ["epubdate"]=> string(0) "" ["source"]=> string(17) "Genes Brain Behav" ["authors"]=> array(2) { [0]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Wickman K" ["title"]=> string(71) "Behavioral characterization of mice lacking GIRK/Kir3 channel subunits." ["sorttitle"]=> string(70) "behavioral characterization of mice lacking girk kir3 channel subunits" ["volume"]=> string(1) "7" ["issue"]=> string(1) "5" ["pages"]=> string(6) "523-31" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(9) "101129617" ["issn"]=> string(9) "1601-1848" ["essn"]=> string(9) "1601-183X" ["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) "18194467" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(6) "GBB388" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(32) "10.1111/j.1601-183X.2008.00388.x" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "18194467" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "18194467" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2008/01/16 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/12/17 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2008/01/16 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(52) ["fulljournalname"]=> string(26) "Genes, brain, and behavior" ["elocationid"]=> string(37) "doi: 10.1111/j.1601-183X.2008.00388.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) "2008/07/01 00:00" ["sortfirstauthor"]=> string(11) "Pravetoni M" ["vernaculartitle"]=> string(0) "" } [18094251]=> array(43) { ["uid"]=> string(8) "18094251" ["pubdate"]=> string(11) "2007 Dec 19" ["epubdate"]=> string(0) "" ["source"]=> string(10) "J Neurosci" ["authors"]=> array(10) { [0]=> array(3) { ["name"]=> string(11) "Anderson GR" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(7) "Lujan R" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(9) "Semenov A" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(12) "Posokhova EN" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(7) "Song JH" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [6]=> array(3) { ["name"]=> string(9) "Uversky V" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [7]=> array(3) { ["name"]=> string(7) "Chen CK" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [8]=> array(3) { ["name"]=> string(9) "Wickman K" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [9]=> array(3) { ["name"]=> string(14) "Martemyanov KA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(14) "Martemyanov KA" ["title"]=> string(152) "Expression and localization of RGS9-2/G 5/R7BP complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases." ["sorttitle"]=> string(151) "expression and localization of rgs9 2 g 5 r7bp complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases" ["volume"]=> string(2) "27" ["issue"]=> string(2) "51" ["pages"]=> string(8) "14117-27" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8102140" ["issn"]=> string(9) "0270-6474" ["essn"]=> string(9) "1529-2401" ["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) "18094251" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(11) "27/51/14117" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(30) "10.1523/JNEUROSCI.3884-07.2007" } [3]=> array(3) { ["idtype"]=> string(3) "pmc" ["idtypen"]=> int(8) ["value"]=> string(10) "PMC6673529" } [4]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "18094251" } [5]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "18094251" } [6]=> array(3) { ["idtype"]=> string(5) "pmcid" ["idtypen"]=> int(5) ["value"]=> string(19) "pmc-id: PMC6673529;" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2007/12/21 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2008/01/15 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2007/12/21 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(47) ["fulljournalname"]=> string(82) "The Journal of neuroscience : the official journal of the Society for Neuroscience" ["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) "2007/12/19 00:00" ["sortfirstauthor"]=> string(11) "Anderson GR" ["vernaculartitle"]=> string(0) "" } [16880773]=> array(43) { ["uid"]=> string(8) "16880773" ["pubdate"]=> string(8) "2007 Apr" ["epubdate"]=> string(11) "2006 Jul 26" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(19) "Mendoza-Baumgart MI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Sparber SB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Sparber SB" ["title"]=> string(104) "Inhibition of nitric oxide synthase enhances cocaine's developmental toxicity: vascular and CNS effects." ["sorttitle"]=> string(102) "inhibition of nitric oxide synthase enhances cocaine s developmental toxicity vascular and cns effects" ["volume"]=> string(2) "32" ["issue"]=> string(1) "4" ["pages"]=> string(5) "940-5" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["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) "16880773" } [1]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "1301157" } [2]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1038/sj.npp.1301157" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "16880773" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "16880773" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2006/08/02 09:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2007/05/02 09:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2006/08/02 09:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(1) ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["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) "2007/04/01 00:00" ["sortfirstauthor"]=> string(19) "Mendoza-Baumgart MI" ["vernaculartitle"]=> string(0) "" } [14997177]=> array(43) { ["uid"]=> string(8) "14997177" ["pubdate"]=> string(8) "2004 Jul" ["epubdate"]=> string(0) "" ["source"]=> string(23) "Neuropsychopharmacology" ["authors"]=> array(3) { [0]=> array(3) { ["name"]=> string(19) "Mendoza-Baumgart MI" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(10) "Sparber SB" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(10) "Sparber SB" ["title"]=> string(117) "Vasoconstriction caused by cocaine is enhanced by sodium salicylate: is inducible nitric oxide synthase mRNA related?" ["sorttitle"]=> string(115) "vasoconstriction caused by cocaine is enhanced by sodium salicylate is inducible nitric oxide synthase mrna related" ["volume"]=> string(2) "29" ["issue"]=> string(1) "7" ["pages"]=> string(8) "1294-300" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "8904907" ["issn"]=> string(9) "0893-133X" ["essn"]=> string(9) "1740-634X" ["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) "14997177" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(22) "10.1038/sj.npp.1300421" } [2]=> array(3) { ["idtype"]=> string(3) "pii" ["idtypen"]=> int(4) ["value"]=> string(7) "1300421" } [3]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "14997177" } [4]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "14997177" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2004/03/05 05:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2004/08/03 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2004/03/05 05:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> string(0) "" ["fulljournalname"]=> string(97) "Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology" ["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) "2004/07/01 00:00" ["sortfirstauthor"]=> string(19) "Mendoza-Baumgart MI" ["vernaculartitle"]=> string(0) "" } [12390877]=> array(43) { ["uid"]=> string(8) "12390877" ["pubdate"]=> string(8) "2002 Nov" ["epubdate"]=> string(0) "" ["source"]=> string(11) "Biol Reprod" ["authors"]=> array(6) { [0]=> array(3) { ["name"]=> string(8) "Robert C" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [1]=> array(3) { ["name"]=> string(8) "McGraw S" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [2]=> array(3) { ["name"]=> string(12) "Massicotte L" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [3]=> array(3) { ["name"]=> string(11) "Pravetoni M" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [4]=> array(3) { ["name"]=> string(10) "Gandolfi F" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } [5]=> array(3) { ["name"]=> string(9) "Sirard MA" ["authtype"]=> string(6) "Author" ["clusterid"]=> string(0) "" } } ["lastauthor"]=> string(9) "Sirard MA" ["title"]=> string(106) "Quantification of housekeeping transcript levels during the development of bovine preimplantation embryos." ["sorttitle"]=> string(105) "quantification of housekeeping transcript levels during the development of bovine preimplantation embryos" ["volume"]=> string(2) "67" ["issue"]=> string(1) "5" ["pages"]=> string(7) "1465-72" ["lang"]=> array(1) { [0]=> string(3) "eng" } ["nlmuniqueid"]=> string(7) "0207224" ["issn"]=> string(9) "0006-3363" ["essn"]=> string(9) "1529-7268" ["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) "12390877" } [1]=> array(3) { ["idtype"]=> string(3) "doi" ["idtypen"]=> int(3) ["value"]=> string(29) "10.1095/biolreprod.102.006320" } [2]=> array(3) { ["idtype"]=> string(3) "rid" ["idtypen"]=> int(8) ["value"]=> string(8) "12390877" } [3]=> array(3) { ["idtype"]=> string(3) "eid" ["idtypen"]=> int(8) ["value"]=> string(8) "12390877" } } ["history"]=> array(3) { [0]=> array(2) { ["pubstatus"]=> string(6) "pubmed" ["date"]=> string(16) "2002/10/23 04:00" } [1]=> array(2) { ["pubstatus"]=> string(7) "medline" ["date"]=> string(16) "2003/05/22 05:00" } [2]=> array(2) { ["pubstatus"]=> string(6) "entrez" ["date"]=> string(16) "2002/10/23 04:00" } } ["references"]=> array(0) { } ["attributes"]=> array(1) { [0]=> string(12) "Has Abstract" } ["pmcrefcount"]=> int(28) ["fulljournalname"]=> string(23) "Biology of reproduction" ["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) "2002/11/01 00:00" ["sortfirstauthor"]=> string(8) "Robert C" ["vernaculartitle"]=> string(0) "" } } }

Publications

The following publications were retrieved from PubMed:

Preclinical Efficacy and Selectivity of Vaccines Targeting Fentanyl, Alfentanil, Sufentanil, and Acetylfentanyl in Rats.

Baehr C, Robinson C, Kassick A, Jahan R, Gradinati V, Averick SE, Runyon SP, Pravetoni M.

ACS Omega. 2022 May 17; 19(7)16584-16592

Efficacy and Selectivity of Monovalent and Bivalent Vaccination Strategies to Protect against Exposure to Carfentanil, Fentanyl, and Their Mixtures in Rats.

Crouse B, Wu MM, Gradinati V, Kassick AJ, Song D, Jahan R, Averick S, Runyon S, Comer SD, Pravetoni M.

ACS Pharmacol Transl Sci. 2022 May 13; 5(5)331-343

Pre-clinical safety and toxicology profile of a candidate vaccine to treat oxycodone use disorder.

Hamid FA, Marker CL, Raleigh MD, Khaimraj A, Winston S, Pentel PR, Pravetoni M.

Vaccine. 2022 May 20; 23(40)3244-3252

Pharmacological Profiling of Antifentanyl Monoclonal Antibodies in Combination with Naloxone in Pre- and Postexposure Models of Fentanyl Toxicity.

Baehr CA, Wu MM, Pandit SG, Arias-Umana J, AuCoin D, Pravetoni M.

J Pharmacol Exp Ther. 2022 May; 2(381)129-136

A Membrane-Modulated Centrifugal Microdevice for Enzyme-Linked Immunosorbent Assay-Based Detection of Illicit and Misused Drugs.

Dignan LM, Woolf MS, Ross JA, Baehr C, Holstege CP, Pravetoni M, Landers JP.

Anal Chem. 2021 Dec 7; 48(93)16213-16221



PubMed Collection Link

Accepting Students For:

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

Lab Information

Location: Harborview Medical Center
Building: Harborview Research and Training Building
Box: 359911
https://psychiatry.uw.edu/profile/marco-pravetoni/