The polarity of high-definition transcranial direct current stimulation affects the planning and execution of movement sequences

IF 4.7 2区医学 Q1 NEUROIMAGING

NeuroImage Pub Date : 2025-02-01 DOI:10.1016/j.neuroimage.2025.121018

Jake J. Son , Tara D. Erker , Thomas W. Ward , Yasra Arif , Peihan J. Huang , Jason A. John , Kellen M. McDonald , Nathan M. Petro , Grant M. Garrison , Hannah J. Okelberry , Kennedy A. Kress , Giorgia Picci , Elizabeth Heinrichs-Graham , Tony W. Wilson

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Abstract

Noninvasive brain stimulation of the primary motor cortex has been shown to alter therapeutic outcomes in stroke and other neurological conditions, but the precise mechanisms remain poorly understood. Determining the impact of such neurostimulation on the neural processing supporting motor control is a critical step toward further harnessing its therapeutic potential in multiple neurological conditions affecting the motor system. Herein, we leverage the excellent spatio-temporal precision of magnetoencephalographic (MEG) imaging to identify the spectral, spatial, and temporal effects of high-definition transcranial direct current stimulation (HD-tDCS) on the neural responses supporting motor control. Participants (N = 67) completed three HD-tDCS visits (anode, cathode, sham), with each involving 20 min of left primary motor cortex stimulation and performance of a simple/complex motor sequencing task during MEG. Whole-brain statistical analyses of beta oscillatory responses revealed stimulation-by-task interaction effects in the left primary motor cortex, right occipitotemporal, and the right dorsolateral prefrontal cortices. Broadly, anodal stimulation induced significantly stronger beta oscillatory responses in these regions during simple movement sequences, while neural responses to complex sequences were not affected by stimulation. En masse, these data suggest that the beta oscillations serving motor planning (i.e., pre-movement) are particularly sensitive to the polarity of noninvasive stimulation and that the impact varies based on the difficulty of the movement sequence.

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高清晰度经颅直流电刺激的极性影响运动序列的规划和执行。

对初级运动皮层的无创脑刺激已被证明可以改变中风和其他神经系统疾病的治疗结果，但其确切机制尚不清楚。确定这种神经刺激对支持运动控制的神经处理的影响是进一步利用其在影响运动系统的多种神经系统疾病中的治疗潜力的关键一步。在此，我们利用脑磁图（MEG）成像出色的时空精度来识别高分辨率经颅直流电刺激（HD-tDCS）对支持运动控制的神经反应的频谱，空间和时间影响。参与者（N = 67）完成了三次HD-tDCS访问（阳极，阴极，假），每次包括20分钟的左初级运动皮层刺激和MEG期间简单/复杂运动测序任务的表现。对β振荡反应的全脑统计分析显示，在左初级运动皮层、右枕颞叶皮层和右背外侧前额叶皮层中存在任务刺激交互作用。总的来说，在简单的运动序列中，阳极刺激在这些区域诱导了明显更强的β振荡反应，而对复杂序列的神经反应不受刺激的影响。总的来说，这些数据表明，服务于运动规划（即运动前）的β振荡对非侵入性刺激的极性特别敏感，并且影响根据运动序列的难度而变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

NeuroImage 医学-核医学

CiteScore

11.30

自引率

10.50%

发文量

809

审稿时长

63 days

期刊介绍： NeuroImage, a Journal of Brain Function provides a vehicle for communicating important advances in acquiring, analyzing, and modelling neuroimaging data and in applying these techniques to the study of structure-function and brain-behavior relationships. Though the emphasis is on the macroscopic level of human brain organization, meso-and microscopic neuroimaging across all species will be considered if informative for understanding the aforementioned relationships.