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Items: 1 to 20 of 31

1.

A Brief Assessment of Intelligence Decline in Schizophrenia As Represented by the Difference between Current and Premorbid Intellectual Quotient.

Ohi K, Sumiyoshi C, Fujino H, Yasuda Y, Yamamori H, Fujimoto M, Sumiyoshi T, Hashimoto R.

Front Psychiatry. 2017 Dec 22;8:293. doi: 10.3389/fpsyt.2017.00293. eCollection 2017. Review.

2.

A polygenic risk score analysis of psychosis endophenotypes across brain functional, structural, and cognitive domains.

Ranlund S, Calafato S, Thygesen JH, Lin K, Cahn W, Crespo-Facorro B, de Zwarte SMC, Díez Á, Di Forti M; GROUP, Iyegbe C, Jablensky A, Jones R, Hall MH, Kahn R, Kalaydjieva L, Kravariti E, McDonald C, McIntosh AM, McQuillin A; PEIC, Picchioni M, Prata DP, Rujescu D, Schulze K, Shaikh M, Toulopoulou T, van Haren N, van Os J, Vassos E, Walshe M; WTCCC2, Lewis C, Murray RM, Powell J, Bramon E.

Am J Med Genet B Neuropsychiatr Genet. 2018 Jan;177(1):21-34. doi: 10.1002/ajmg.b.32581. Epub 2017 Aug 29.

3.

Cognitive clustering in schizophrenia patients, their first-degree relatives and healthy subjects is associated with anterior cingulate cortex volume.

Ohi K, Shimada T, Nemoto K, Kataoka Y, Yasuyama T, Kimura K, Okubo H, Uehara T, Kawasaki Y.

Neuroimage Clin. 2017 Aug 8;16:248-256. doi: 10.1016/j.nicl.2017.08.008. eCollection 2017.

4.

Cross-Disorder Cognitive Impairments in Youth Referred for Neuropsychiatric Evaluation.

Doyle AE, Vuijk PJ, Doty ND, McGrath LM, Willoughby BL, O'Donnell EH, Wilson HK, Colvin MK, Toner DC, Hudson KE, Blais JE, Ditmars HL, Faraone SV, Seidman LJ, Braaten EB.

J Int Neuropsychol Soc. 2018 Jan;24(1):91-103. doi: 10.1017/S1355617717000601. Epub 2017 Aug 4.

5.

Identification of Genetic Loci Jointly Influencing Schizophrenia Risk and the Cognitive Traits of Verbal-Numerical Reasoning, Reaction Time, and General Cognitive Function.

Smeland OB, Frei O, Kauppi K, Hill WD, Li W, Wang Y, Krull F, Bettella F, Eriksen JA, Witoelar A, Davies G, Fan CC, Thompson WK, Lam M, Lencz T, Chen CH, Ueland T, Jönsson EG, Djurovic S, Deary IJ, Dale AM, Andreassen OA; NeuroCHARGE (Cohorts for Heart and Aging Research in Genomic Epidemiology) Cognitive Working Group.

JAMA Psychiatry. 2017 Oct 1;74(10):1065-1075. doi: 10.1001/jamapsychiatry.2017.1986.

PMID:
28746715
6.

PKBγ/AKT3 loss-of-function causes learning and memory deficits and deregulation of AKT/mTORC2 signaling: Relevance for schizophrenia.

Howell KR, Floyd K, Law AJ.

PLoS One. 2017 May 3;12(5):e0175993. doi: 10.1371/journal.pone.0175993. eCollection 2017.

7.

IQ, the Urban Environment, and Their Impact on Future Schizophrenia Risk in Men.

Toulopoulou T, Picchioni M, Mortensen PB, Petersen L.

Schizophr Bull. 2017 Sep 1;43(5):1056-1063. doi: 10.1093/schbul/sbw147.

PMID:
28338769
8.

Heritability of Neuropsychological Measures in Schizophrenia and Nonpsychiatric Populations: A Systematic Review and Meta-analysis.

Blokland GAM, Mesholam-Gately RI, Toulopoulou T, Del Re EC, Lam M, DeLisi LE, Donohoe G, Walters JTR; GENUS Consortium, Seidman LJ, Petryshen TL.

Schizophr Bull. 2017 Jul 1;43(4):788-800. doi: 10.1093/schbul/sbw146.

PMID:
27872257
9.

Behavioral, Neurophysiological, and Synaptic Impairment in a Transgenic Neuregulin1 (NRG1-IV) Murine Schizophrenia Model.

Papaleo F, Yang F, Paterson C, Palumbo S, Carr GV, Wang Y, Floyd K, Huang W, Thomas CJ, Chen J, Weinberger DR, Law AJ.

J Neurosci. 2016 Apr 27;36(17):4859-75. doi: 10.1523/JNEUROSCI.4632-15.2016.

10.

Polygenic Risk of Schizophrenia and Cognition in a Population-Based Survey of Older Adults.

Liebers DT, Pirooznia M, Seiffudin F, Musliner KL, Zandi PP, Goes FS.

Schizophr Bull. 2016 Jul;42(4):984-91. doi: 10.1093/schbul/sbw001. Epub 2016 Feb 12.

11.

Evidence of Common Genetic Overlap Between Schizophrenia and Cognition.

Hubbard L, Tansey KE, Rai D, Jones P, Ripke S, Chambert KD, Moran JL, McCarroll SA, Linden DE, Owen MJ, O'Donovan MC, Walters JT, Zammit S.

Schizophr Bull. 2016 May;42(3):832-42. doi: 10.1093/schbul/sbv168. Epub 2015 Dec 16.

12.

Common genetic variation and schizophrenia polygenic risk influence neurocognitive performance in young adulthood.

Hatzimanolis A, Bhatnagar P, Moes A, Wang R, Roussos P, Bitsios P, Stefanis CN, Pulver AE, Arking DE, Smyrnis N, Stefanis NC, Avramopoulos D.

Am J Med Genet B Neuropsychiatr Genet. 2015 Jul;168B(5):392-401. doi: 10.1002/ajmg.b.32323. Epub 2015 May 12.

13.

Glutamate Networks Implicate Cognitive Impairments in Schizophrenia: Genome-Wide Association Studies of 52 Cognitive Phenotypes.

Ohi K, Hashimoto R, Ikeda M, Yamamori H, Yasuda Y, Fujimoto M, Umeda-Yano S, Fukunaga M, Fujino H, Watanabe Y, Iwase M, Kazui H, Iwata N, Weinberger DR, Takeda M.

Schizophr Bull. 2015 Jul;41(4):909-18. doi: 10.1093/schbul/sbu171. Epub 2014 Dec 22.

14.

Assessing the utility of intermediate phenotypes for genetic mapping of psychiatric disease.

Flint J, Timpson N, Munafò M.

Trends Neurosci. 2014 Dec;37(12):733-41. doi: 10.1016/j.tins.2014.08.007. Epub 2014 Sep 9. Review.

15.

Substantial SNP-based heritability estimates for working memory performance.

Vogler C, Gschwind L, Coynel D, Freytag V, Milnik A, Egli T, Heck A, de Quervain DJ, Papassotiropoulos A.

Transl Psychiatry. 2014 Sep 9;4:e438. doi: 10.1038/tp.2014.81.

16.

The association between family history of mental disorders and general cognitive ability.

McGrath JJ, Wray NR, Pedersen CB, Mortensen PB, Greve AN, Petersen L.

Transl Psychiatry. 2014 Jul 22;4:e412. doi: 10.1038/tp.2014.60.

17.

GWAS-based pathway analysis differentiates between fluid and crystallized intelligence.

Christoforou A, Espeseth T, Davies G, Fernandes CP, Giddaluru S, Mattheisen M, Tenesa A, Harris SE, Liewald DC, Payton A, Ollier W, Horan M, Pendleton N, Haggarty P, Djurovic S, Herms S, Hoffman P, Cichon S, Starr JM, Lundervold A, Reinvang I, Steen VM, Deary IJ, Le Hellard S.

Genes Brain Behav. 2014 Sep;13(7):663-74. doi: 10.1111/gbb.12152. Epub 2014 Aug 8.

18.

Genomic insights into the overlap between psychiatric disorders: implications for research and clinical practice.

Doherty JL, Owen MJ.

Genome Med. 2014 Apr 28;6(4):29. doi: 10.1186/gm546. eCollection 2014. Review.

19.

Human cognitive ability is influenced by genetic variation in components of postsynaptic signalling complexes assembled by NMDA receptors and MAGUK proteins.

Hill WD, Davies G, van de Lagemaat LN, Christoforou A, Marioni RE, Fernandes CP, Liewald DC, Croning MD, Payton A, Craig LC, Whalley LJ, Horan M, Ollier W, Hansell NK, Wright MJ, Martin NG, Montgomery GW, Steen VM, Le Hellard S, Espeseth T, Lundervold AJ, Reinvang I, Starr JM, Pendleton N, Grant SG, Bates TC, Deary IJ.

Transl Psychiatry. 2014 Jan 7;4:e341. doi: 10.1038/tp.2013.114.

20.

A genetic deconstruction of neurocognitive traits in schizophrenia and bipolar disorder.

Fernandes CP, Christoforou A, Giddaluru S, Ersland KM, Djurovic S, Mattheisen M, Lundervold AJ, Reinvang I, Nöthen MM, Rietschel M, Ophoff RA; Genetic Risk and Outcome of Psychosis (GROUP), Hofman A, Uitterlinden AG, Werge T, Cichon S, Espeseth T, Andreassen OA, Steen VM, Le Hellard S.

PLoS One. 2013 Dec 12;8(12):e81052. doi: 10.1371/journal.pone.0081052. eCollection 2013.

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