Reduced nucleus accumbens functional connectivity in reward network and default mode network in patients with recurrent major depressive disorder.
Yu-Dan DingXiao ChenZuo-Bing ChenLe LiXue-Ying LiFrancisco Xavier CastellanosTong-Jian BaiQi-Jing BoJun CaoZhi-Kai ChangGuan-Mao ChenNing-Xuan ChenWei ChenChang ChengYu-Qi ChengXi-Long CuiJia DuanYi-Ru FangQi-Yong GongZheng-Hua HouLan HuLi KuangFeng LiHui-Xian LiKai-Ming LiTao LiYan-Song LiuZhe-Ning LiuYi-Cheng LongBin LuQing-Hua LuoHua-Qing MengDai-Hui PengHai-Tang QiuJiang QiuYue-Di ShenYu-Shu ShiTian-Mei SiYan-Qing TangChuan-Yue WangFei WangKai WangLi WangXiang WangYing WangYu-Wei WangXiao-Ping WuXin-Ran WuChun-Ming XieGuang-Rong XieHai-Yan XiePeng XieXiu-Feng XuHong YangJian YangJia-Shu YaoShu-Qiao YaoYing-Ying YinYong-Gui YuanYu-Feng ZangAi-Xia ZhangHong ZhangKe-Rang ZhangLei ZhangZhi-Jun ZhangJing-Ping ZhaoRu-Bai ZhouYi-Ting ZhouJun-Juan ZhuZhi-Chen ZhuChao-Jie ZouXi-Nian ZuoChao-Gan YanWen-Bin GuoPublished in: Translational psychiatry (2022)
The nucleus accumbens (NAc) is considered a hub of reward processing and a growing body of evidence has suggested its crucial role in the pathophysiology of major depressive disorder (MDD). However, inconsistent results have been reported by studies on reward network-focused resting-state functional MRI (rs-fMRI). In this study, we examined functional alterations of the NAc-based reward circuits in patients with MDD via meta- and mega-analysis. First, we performed a coordinated-based meta-analysis with a new SDM-PSI method for all up-to-date rs-fMRI studies that focused on the reward circuits of patients with MDD. Then, we tested the meta-analysis results in the REST-meta-MDD database which provided anonymous rs-fMRI data from 186 recurrent MDDs and 465 healthy controls. Decreased functional connectivity (FC) within the reward system in patients with recurrent MDD was the most robust finding in this study. We also found disrupted NAc FCs in the DMN in patients with recurrent MDD compared with healthy controls. Specifically, the combination of disrupted NAc FCs within the reward network could discriminate patients with recurrent MDD from healthy controls with an optimal accuracy of 74.7%. This study confirmed the critical role of decreased FC in the reward network in the neuropathology of MDD. Disrupted inter-network connectivity between the reward network and DMN may also have contributed to the neural mechanisms of MDD. These abnormalities have potential to serve as brain-based biomarkers for individual diagnosis to differentiate patients with recurrent MDD from healthy controls.
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