萎缩
神经科学
默认模式网络
疾病
扁桃形结构
异常
神经影像学
生物
病理
内嗅皮质
海马体
后皮质萎缩
颞叶皮质
脑萎缩
大脑定位
医学
人脑
神经网络
阿尔茨海默病
心理学
边缘系统
脑病
皮质(解剖学)
颞叶
退行性疾病
作者
Andrew Vo,Christina Tremblay,Shady Rahayel,Sarah Al‐Bachari,Henk W Berendse,Joanna K. Bright,Fernando Cendes,Emile d'Angremont,John C. Dalrymple-Alford,Ines Debove,Michiel F. Dirkx,Jason Druzgal,Gaëtan Garraux,Rick C Helmich,Michele T Hu,Neda Jahanshad,Martin E. Johansson,Johannes C. Klein,Max A. Laansma,Corey T. McMillan
出处
期刊:Brain
[Oxford University Press]
日期:2025-11-13
标识
DOI:10.1093/brain/awaf432
摘要
Abstract Parkinson’s disease (PD) is associated with extensive structural brain changes. Recent work has proposed that the spatial pattern of disease pathology is shaped by both network spread and local vulnerability. However, only few studies assessed these biological frameworks in large patient samples across disease stages. Analyzing the largest imaging cohort in PD to date (n = 3,096 patients), we investigated the roles of network architecture and local brain features by relating regional abnormality maps to normative profiles of connectivity, intrinsic networks, cytoarchitectonics, neurotransmitter receptor densities, and gene expression. We found widespread cortical and subcortical atrophy in PD to be associated with advancing disease stage, longer time since diagnosis, and poorer global cognition. Structural brain connectivity best explained cortical atrophy patterns in PD and across disease stages. These patterns were robust among individual patients. The precuneus, lateral temporal cortex, and amygdala were identified as likely network-based epicentres, with high convergence across disease stages. Individual epicentres varied significantly among patients, yet they consistently localized to the default mode and limbic networks. Furthermore, we showed that regional overexpression of genes implicated in synaptic structure and signalling conferred increased susceptibility to brain atrophy in PD. In summary, this study demonstrates in a well-powered sample that structural brain abnormalities in PD across disease stages and within individual patients are influenced by both network spread and local vulnerability.
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