Parkinson’s disease as a somato-cognitive action network disorder

脑深部刺激 疾病 神经调节 磁刺激 医学 神经科学 功能磁共振成像 神经可塑性 帕金森病 苍白球 聚焦超声 黑质 刺激 病理生理学 神经影像学 左旋多巴 丘脑底核 磁共振成像 心理学 运动皮层 电动机系统 功能成像 重性抑郁障碍 原发性震颤 电生理学 运动障碍 电动机控制 立体定向手术
作者
Jianxun Ren,Wei Zhang,Louisa Dahmani,Evan M. Gordon,Shenshen Li,Ying Zhou,Yang Long,Jianting Huang,Yafei Zhu,Ning Guo,Changqing Jiang,Feng Zhang,Yan Bai,Wei Wei,Yaping Wu,Alan Bush,Matteo Vissani,Luhua Wei,Carina R. Oehrn,Melanie A. Morrison
出处
期刊:Nature [Nature Portfolio]
卷期号:651 (8107): 1030-1038 被引量:24
标识
DOI:10.1038/s41586-025-10059-1
摘要

Parkinson’s disease (PD) is an incurable neurological disorder that often begins insidiously with sleep disturbances and somatic symptoms, progressing to whole-body motor and cognitive symptoms1–5. Dysfunction of the somato-cognitive action network (SCAN)—which is thought to control action execution6,7 by coordinating arousal, organ physiology and whole-body motor plans with behavioural motivation—is a potential contributor to the diverse clinical manifestations of PD. To investigate the role of the SCAN in PD pathophysiology and treatments (medications, deep-brain stimulation (DBS), transcranial magnetic stimulation (TMS) and MRI-guided focused ultrasound stimulation (MRgFUS)), we built a large (n = 863), multimodal, multi-intervention clinical imaging dataset. Resting-state functional connectivity revealed that the substantia nigra and all PD DBS targets (subthalamic nucleus, globus pallidus and ventral intermediate thalamus) are selectively connected to the SCAN rather than to effector-specific motor regions. Importantly, PD was characterized by specific hyperconnectivity between the SCAN and the subcortex. We therefore followed six PD cohorts undergoing DBS, TMS, MRgFUS and levodopa therapy using precision resting-state functional connectivity and electrocorticography recording. Efficacious treatments reduced SCAN-to-subcortex hyperconnectivity. Targeting the SCAN instead of effector regions doubled the efficacy of TMS treatments. Focused ultrasound treatment benefits increased when the target was closer to the thalamic SCAN sweet spot. Thus, SCAN hyperconnectivity is central to PD pathophysiology and its alleviation is a hallmark of successful neuromodulation. Targeting functionally defined subcortical SCAN nodes may improve existing therapies (DBS, MRgFUS), whereas cortical SCAN targets offer effective non-invasive or minimally invasive neuromodulation for PD. The substantia nigra and all Parkinson’s disease deep-brain stimulation targets are selectively connected to the somato-cognitive action network rather than to effector-specific motor regions.
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