Global hippocampus functional connectivity as a predictive neural marker for conversion to future mood disorder in unaffected offspring of bipolar disorder parents

Hippocampus-related functional alteration in genetically at-risk individuals may reflect an endophenotype of a mood disorder. Herein, we performed a prospective study to investigate whether baseline hippocampus functional connectivity (FC) in offspring of patients with bipolar disorder (BD) would pr...

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Bibliographic Details
Published in:Asian journal of psychiatry 2022-12, Vol.78, p.103307-103307, Article 103307
Main Authors: Zou, Wenjin, Song, Peilun, Lu, Weicong, Shao, Robin, Zhang, Ruoxi, Yau, Suk-Yu, Yuan, Ti-fei, Wang, Yaping, Lin, Kangguang
Format: Article
Language:English
Subjects:
Bipolar disorder
Functional connectivity, prediction
Offspring, hippocampus
RsfMRI
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Summary:Hippocampus-related functional alteration in genetically at-risk individuals may reflect an endophenotype of a mood disorder. Herein, we performed a prospective study to investigate whether baseline hippocampus functional connectivity (FC) in offspring of patients with bipolar disorder (BD) would predict subsequent conversion to mood disorder. Eighty bipolar offspring and 40 matched normal controls (NC) underwent resting state functional MRI (rsfMRI) scanning on a 3.0 Tesla MR scanner. The offspring were subdivided into asymptomatic offspring (AO) (n = 41) and symptomatic offspring (SO) (n = 39) according to whether they manifested subthreshold mood symptoms. After identifying the different hippocampus FCs between the AO and SO, a logistic regression analysis was conducted to investigate whether the baseline hippocampus FCs predicted a future mood disorder during a 6-year follow-up. We identified seven baseline para/hippocampus FCs that showed differences between AO and SO, which were entered as predictive features in the logistic regressive model. Of the 80 bipolar offspring entering the analysis, the FCs between left hippocampus and left precuneus, and between right hippocampus and left posterior cingulate, showed a discriminative capacity for predicting future mood disorder (area-under-curve, or AUC=75.76 % and 75.00 % respectively), and for predicting BD onset (AUC=77.46 % and 81.63 %, respectively). The present findings revealed high predictive utility of the hippocampus resting state FCs for future mood disorder and BD onset in individuals at familial risk. These neural markers can potentially improve early detection of individuals carrying particularly high risk for future mood disorder. •-The offspring of bipolar disorder patients may harbor endophenotype-related characteristic serve to a potential predictor for disease episode.•-Hippocampus functional alteration may be present to differential degrees with implication in the pathophysiology of offspring of BD patients, and could be a predictive biomarker for future mood disorders.•-The present findings revealed high predictive utility of the hippocampus resting state FCs for future mood disorder and BD onset in individuals at familial risk.
ISSN:1876-2018
1876-2026
DOI:10.1016/j.ajp.2022.103307