Dynamic structure–function coupling across three major psychiatric disorders

精神分裂症(面向对象编程) 默认模式网络 重性抑郁障碍 双相情感障碍 大脑结构与功能 神经科学 心理学 医学 认知 精神科
作者
Zhe Zhang,Wei Wei,Sujie Wang,Mingli Li,Xiaojing Li,Xiaoyu Li,Qiang Wang,Hua Yu,Yamin Zhang,Wanjun Guo,Xiaohong Ma,Liansheng Zhao,Wei Deng,Pak C. Sham,Yu Sun,Tao Li
出处
期刊:Psychological Medicine [Cambridge University Press]
卷期号:54 (8): 1629-1640 被引量:12
标识
DOI:10.1017/s0033291723003525
摘要

BACKGROUND: Convergent evidence has suggested atypical relationships between brain structure and function in major psychiatric disorders, yet how the abnormal patterns coincide and/or differ across different disorders remains largely unknown. Here, we aim to investigate the common and/or unique dynamic structure-function coupling patterns across major depressive disorder (MDD), bipolar disorder (BD), and schizophrenia (SZ). METHODS: We quantified the dynamic structure-function coupling in 452 patients with psychiatric disorders (MDD/BD/SZ = 166/168/118) and 205 unaffected controls at three distinct brain network levels, such as global, meso-, and local levels. We also correlated dynamic structure-function coupling with the topological features of functional networks to examine how the structure-function relationship facilitates brain information communication over time. RESULTS: The dynamic structure-function coupling is preserved for the three disorders at the global network level. Similar abnormalities in the rich-club organization are found in two distinct functional configuration states at the meso-level and are associated with the disease severity of MDD, BD, and SZ. At the local level, shared and unique alterations are observed in the brain regions involving the visual, cognitive control, and default mode networks. In addition, the relationships between structure-function coupling and the topological features of functional networks are altered in a manner indicative of state specificity. CONCLUSIONS: These findings suggest both transdiagnostic and illness-specific alterations in the dynamic structure-function relationship of large-scale brain networks across MDD, BD, and SZ, providing new insights and potential biomarkers into the neurodevelopmental basis underlying the behavioral and cognitive deficits observed in these disorders.
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