缓解期抑郁发作中反刍思维的神经关联:脑网络连接性与拓扑分析。
Neural correlates of rumination in remitted depressive episodes: Brain network connectivity and topology analyses.
作者信息
Li Kang-Ning, Tang Shi-Xiong, Tao You-Fu, He Hai-Ruo, Ma Mo-Han, Zhang Qian-Qian, Huang Mei, Chen Wen-Tao, Liang Hui, Deng Ao-Qian, Gao Si-Rui, Meng Fan-Yu, Peng Yi-Lin, Ju Yu-Meng, Ou Wen-Wen, Shu Su, Zhang Yan
机构信息
Department of Psychiatry, National Clinical Research Center for Mental Disorders, and National Center for Mental Disorders, The Second Xiangya Hospital of Central South University, Changsha 410011, Hunan Province, China.
Department of Radiology, The Second Xiangya Hospital, Central South University, Changsha 410011, Hunan Province, China.
出版信息
World J Psychiatry. 2025 Jun 19;15(6):105555. doi: 10.5498/wjp.v15.i6.105555.
BACKGROUND
Rumination is a critical psychological factor contributing to the relapse of major depressive episodes (MDEs) and a core residual symptom in remitted MDEs. Investigating its neural correlations is essential for developing strategies to prevent MDE relapse. Despite its clinical importance, the brain network mechanisms underlying rumination in remitted MDE patients have yet to be fully elucidated.
AIM
To investigate the brain network mechanism underlying rumination in patients with remitted MDEs using functional magnetic resonance imaging (fMRI).
METHODS
We conducted an fMRI-based rumination-distraction task to induce rumination and distraction states in 51 patients with remitted MDEs. Functional connectivity (FC) was analyzed using the network-based statistic (NBS) approach, and eight topological metrics were calculated to compare the network topological properties between the two states. Correlation analyses were further performed to identify the relationships between individual rumination levels and the significantly altered brain network metrics.
RESULTS
The NBS analysis revealed that the altered FCs between the rumination and distraction states were located primarily in the frontoparietal, default mode, and cerebellar networks. No significant correlation was detected between these altered FCs and individual rumination levels. Among the eight topological metrics, the clustering coefficient, shortest path length, and local efficiency were significantly lower during rumination and positively correlated with individual rumination levels. In contrast, global efficiency was greater in the rumination state than in the distraction state and was negatively correlated with individual rumination levels.
CONCLUSION
Our work revealed the altered FC and topological properties during rumination in remitted MDE patients, offering valuable insights into the neural mechanisms of rumination from a brain network perspective.
背景
反刍思维是导致重度抑郁发作(MDE)复发的关键心理因素,也是缓解期MDE的核心残留症状。研究其神经关联对于制定预防MDE复发的策略至关重要。尽管其具有临床重要性,但缓解期MDE患者反刍思维背后的脑网络机制尚未完全阐明。
目的
使用功能磁共振成像(fMRI)研究缓解期MDE患者反刍思维背后的脑网络机制。
方法
我们对51例缓解期MDE患者进行了基于fMRI的反刍-分心任务,以诱导反刍和分心状态。使用基于网络的统计(NBS)方法分析功能连接(FC),并计算八个拓扑指标以比较两种状态下的网络拓扑属性。进一步进行相关分析,以确定个体反刍水平与显著改变的脑网络指标之间的关系。
结果
NBS分析显示,反刍和分心状态之间改变的FC主要位于额顶叶、默认模式和小脑网络。在这些改变的FC与个体反刍水平之间未检测到显著相关性。在八个拓扑指标中,聚类系数、最短路径长度和局部效率在反刍期间显著降低,并且与个体反刍水平呈正相关。相反,反刍状态下的全局效率高于分心状态,并且与个体反刍水平呈负相关。
结论
我们的研究揭示了缓解期MDE患者反刍期间FC和拓扑属性的改变,从脑网络角度为反刍思维的神经机制提供了有价值的见解。
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