中风后轻度至中度运动障碍患者大脑网络的模块化程度高、灵活性强。

Xin Yu , Dage Mei , Kang Wu , Yuanyuan Li , Chen Chen , Tianzhu Chen , Xinyue Shi , Yihuai Zou
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引用次数: 0

摘要

脑卒中被认为是一种网络交流障碍。神经影像技术的进步提高了我们对大脑动态变化的理解。然而,脑卒中后不同程度的运动功能障碍可能有不同的大脑重组模式。脑卒中后轻度至中度运动功能障碍患者大脑活动的异常和适应模式仍未得到充分探索。我们从 30 名脑卒中患者和 31 名健康对照者中获得了 fMRI 数据,建立了一个时空多层模块化模型。然后,计算了包括模块性、灵活性、内聚性和脱节性在内的图论测量值,以量化动态重构。我们的研究结果表明,与中风后大脑相比,中风后大脑表现出更高的模块化组织以及更强的脱节性。此外,从网络层面分析,我们发现默认模式网络(DMN)的脱节性和灵活性增加,表明脑区倾向于更频繁、更独立地在群落间切换,而动态变化主要由DMN驱动。值得注意的是,功能动态变化与轻度至中度运动障碍患者的运动表现呈正相关。总之,我们的研究发现了中风后多层网络中动态群落重建的模式。我们的研究结果可为卒中后大脑神经功能的复杂重组提供新的见解。
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High modularity, more flexible of brain networks in patients with mild to moderate motor impairments after stroke

Stroke is recognized as a network communication disorder. Advances in neuroimaging technologies have enhanced our comprehension of dynamic cerebral alterations. However, different levels of motor function impairment after stroke may have different patterns of brain reorganization. Abnormal and adaptive patterns of brain activity in mild-to-moderate motor function impairments after stroke remain still underexplored. We aim to identify dynamic patterns of network remodeling in stroke patients with mild-to-moderate impairment of motor function. fMRI data were obtained from 30 stroke patients and 31 healthy controls to establish a spatiotemporal multilayer modularity model. Then, graph-theoretic measures, including modularity, flexibility, cohesion, and disjointedness, were calculated to quantify dynamic reconfiguration. Our findings reveal that the post-stroke brain exhibited higher modular organization, as well as heightened disjointedness, compared to HCs. Moreover, analyzing from the network level, we found increased disjointedness and flexibility in the Default mode network (DMN), indicating that brain regions tend to switch more frequently and independently between communities and the dynamic changes were mainly driven by DMN. Notably, modified functional dynamics positively correlated with motor performance in patients with mild-to-moderate motor impairment. Collectively, our research uncovered patterns of dynamic community reconstruction in multilayer networks following stroke. Our findings may offer new insights into the complex reorganization of neural function in post-stroke brain.

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来源期刊
Experimental gerontology
Experimental gerontology Ageing, Biochemistry, Geriatrics and Gerontology
CiteScore
6.70
自引率
0.00%
发文量
0
审稿时长
66 days
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