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Literature DB >> 32251404

A neuroimaging biomarker for striatal dysfunction in schizophrenia.

Ang Li^1,2,3, Andrew Zalesky^4,5, Weihua Yue^6,7, Oliver Howes^8,9, Hao Yan^6,7, Yong Liu^1,2,3, Lingzhong Fan^1,2,3, Kirstie J Whitaker^10,11, Kaibin Xu^1,2, Guangxiang Rao^1,2,3, Jin Li^1,2, Shu Liu^1,2,3, Meng Wang^1,2,3, Yuqing Sun^1,2,3, Ming Song^1,2, Peng Li^6,7, Jun Chen¹², Yunchun Chen¹³, Huaning Wang¹³, Wenming Liu¹³, Zhigang Li¹⁴, Yongfeng Yang^15,16, Hua Guo¹⁴, Ping Wan¹⁴, Luxian Lv^15,16, Lin Lu^6,7, Jun Yan^6,7, Yuqing Song^6,7, Huiling Wang¹⁷, Hongxing Zhang^15,16,18, Huawang Wu¹⁹, Yuping Ning¹⁹, Yuhui Du²⁰, Yuqi Cheng²¹, Jian Xu²¹, Xiufeng Xu²¹, Dai Zhang^6,7,22, Xiaoqun Wang^2,3,23, Tianzi Jiang^{24,25,26,27,28,29}, Bing Liu^30,31,32,33.

Abstract

Mounting evidence suggests that function and connectivity of the striatum is disrupted in schizophrenia1-5. We have developed a new hypothesis-driven neuroimaging biomarker for schizophrenia identification, prognosis and subtyping based on functional striatal abnormalities (FSA). FSA scores provide a personalized index of striatal dysfunction, ranging from normal to highly pathological. Using inter-site cross-validation on functional magnetic resonance images acquired from seven independent scanners (n = 1,100), FSA distinguished individuals with schizophrenia from healthy controls with an accuracy exceeding 80% (sensitivity, 79.3%; specificity, 81.5%). In two longitudinal cohorts, inter-individual variation in baseline FSA scores was significantly associated with antipsychotic treatment response. FSA revealed a spectrum of severity in striatal dysfunction across neuropsychiatric disorders, where dysfunction was most severe in schizophrenia, milder in bipolar disorder, and indistinguishable from healthy individuals in depression, obsessive-compulsive disorder and attention-deficit hyperactivity disorder. Loci of striatal hyperactivity recapitulated the spatial distribution of dopaminergic function and the expression profiles of polygenic risk for schizophrenia. In conclusion, we have developed a new biomarker to index striatal dysfunction and established its utility in predicting antipsychotic treatment response, clinical stratification and elucidating striatal dysfunction in neuropsychiatric disorders.

Entities: Disease

Mesh：

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Year: 2020 PMID： 32251404 DOI： 10.1038/s41591-020-0793-8

Source DB: PubMed Journal: Nat Med ISSN： 1078-8956 Impact factor: 53.440

50 in total

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