Information from the abstract
Depression has been linked to reduced size of subcortical regions and abnormal functional connectivity in frontal and default mode networks. However, recent meta-analyses have failed to identify significant converging correlates of depression across the literature such that a conclusive mapping of the neuroimaging correlates of depression remains elusive. We leveraged 23,417 participants across 6 population datasets to comprehensively establish the neuroimaging correlates of depression. We found reductions in gray matter volume/cortical surface area associated with depression in the frontal cortex, anterior cingulate and insula, confirming previous studies showing the importance of prefrontal and default mode regions in depression. Our findings demonstrate multiple surprising results, including a lack of depression correlates in subcortical brain regions and significant depression correlates in somatomotor and visual regions. Overall, these results shed new light on key brain regions involved in the pathophysiology of depression, updating our understanding of the neuroimaging correlates of depression symptoms. In this study, the authors use 6 large-scale neuroimaging datasets (N = 23,417 participants) to systematically investigate structural and functional connectivity correlates of depression.
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Related topics: Functional Brain Connectivity Studies · Mental Health Research Topics · Neural and Behavioral Psychology Studies
Thai researcher and institutional participation
Setthanan Jarukasemkit · Chulalongkorn University · Mahidol University · Ramathibodi Hospital
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