静息态快速脑活动可预测个体间运动表现的变异性。

Resting state fast brain dynamics predict interindividual variability in motor performance.

机构信息

UR2NF-Neuropsychology and Functional Neuroimaging Research Unit affiliated at CRCN - Centre for Research in Cognition and Neurosciences, Avenue F.D. Roosevelt 50, 1050, Bruxelles, Belgium.

UNI-ULB Neuroscience Institute, Université Libre de Bruxelles (ULB), Avenue F.D. Roosevelt 50, 1050, Bruxelles, Belgium.

出版信息

Sci Rep. 2022 Mar 29;12(1):5340. doi: 10.1038/s41598-022-08767-z.

DOI:10.1038/s41598-022-08767-z

PMID:35351907

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8964712/

Abstract

Motor learning features rapid enhancement during practice then offline post-practice gains with the reorganization of related brain networks. We hypothesised that fast transient, sub-second variations in magnetoencephalographic (MEG) network activity during the resting-state (RS) reflect early learning-related plasticity mechanisms and/or interindividual motor variability in performance. MEG RS activity was recorded before and 20 min after motor learning. Hidden Markov modelling (HMM) of MEG power envelope signals highlighted 8 recurrent topographical states. For two states, motor performance levels were associated with HMM temporal parameters both in pre- and post-learning resting-state sessions. However, no association emerged with offline changes in performance. These results suggest a trait-like relationship between spontaneous transient neural dynamics at rest and interindividual variations in motor abilities. On the other hand, transient RS dynamics seem not to be state-dependent, i.e., modulated by learning experience and reflect neural plasticity, at least on the short timescale.

摘要

运动学习在练习过程中迅速增强，然后在离线练习后，相关大脑网络发生重组，从而获得收益。我们假设，静息态（RS）期间磁源经颅磁刺激（MEG）网络活动的快速瞬态、亚秒级变化反映了早期与学习相关的可塑性机制和/或个体间运动表现的可变性。MEG RS 活动在运动学习前和 20 分钟后进行记录。MEG 功率包络信号的隐马尔可夫模型（HMM）突出了 8 个反复出现的拓扑状态。对于两个状态，MEG 功率包络信号的隐马尔可夫模型（HMM）时间参数在学习前和学习后静息状态会话中均与运动表现水平相关。然而，在离线运动表现的变化中没有出现相关性。这些结果表明，在静息状态下自发的瞬态神经动力学与个体间运动能力的变化之间存在一种特质关系。另一方面，瞬态 RS 动力学似乎不依赖于状态，即不受学习经验的调节，至少在短时间尺度上反映了神经可塑性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/81e4/8964712/cdca6bf691fc/41598_2022_8767_Fig1_HTML.jpg

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静息态快速脑活动可预测个体间运动表现的变异性。

Resting state fast brain dynamics predict interindividual variability in motor performance.

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