模拟经颅直流电刺激（tDCS）电极放置以同时刺激初级运动皮层（M1）和辅助运动区（SMA），可根据电流方向增强运动表现并调节皮层兴奋性。

Simulating tDCS electrode placement to stimulate both M1 and SMA enhances motor performance and modulates cortical excitability depending on current flow direction.

作者信息

Sato Takatsugu, Katagiri Natsuki, Suganuma Saki, Laakso Ilkka, Tanabe Shigeo, Osu Rieko, Tanaka Satoshi, Yamaguchi Tomofumi

机构信息

Department of Physical Therapy, Yamagata Prefectural University of Health Sciences, Yamagata, Japan.

Department of Rehabilitation Medicine, Tokyo Bay Rehabilitation Hospital, Narashino, Japan.

出版信息

Front Neurosci. 2024 Jul 1;18:1362607. doi: 10.3389/fnins.2024.1362607. eCollection 2024.

DOI:10.3389/fnins.2024.1362607

PMID:39010941

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11246916/

Abstract

INTRODUCTION

The conventional method of placing transcranial direct current stimulation (tDCS) electrodes is just above the target brain area. However, this strategy for electrode placement often fails to improve motor function and modulate cortical excitability. We investigated the effects of optimized electrode placement to induce maximum electrical fields in the leg regions of both M1 and SMA, estimated by electric field simulations in the T1and T2-weighted MRI-based anatomical models, on motor performance and cortical excitability in healthy individuals.

METHODS

A total of 36 healthy volunteers participated in this randomized, triple-blind, sham-controlled experiment. They were stratified by sex and were randomly assigned to one of three groups according to the stimulation paradigm, including tDCS with (1) anodal and cathodal electrodes positioned over FCz and POz, respectively, (A-P tDCS), (2) anodal and cathodal electrodes positioned over POz and FCz, respectively, (P-A tDCS), and (3) sham tDCS. The sit-to-stand training following tDCS (2 mA, 10 min) was conducted every 3 or 4 days over 3 weeks (5 sessions total).

RESULTS

Compared to sham tDCS, A-P tDCS led to significant increases in the number of sit-to-stands after 3 weeks training, whereas P-A tDCS significantly increased knee flexor peak torques after 3 weeks training, and decreased short-interval intracortical inhibition (SICI) immediately after the first session of training and maintained it post-training.

DISCUSSION

These results suggest that optimized electrode placement of the maximal EF estimated by electric field simulation enhances motor performance and modulates cortical excitability depending on the direction of current flow.

摘要

引言

传统的经颅直流电刺激（tDCS）电极放置方法是在目标脑区正上方。然而，这种电极放置策略往往无法改善运动功能和调节皮层兴奋性。我们通过在基于T1和T2加权MRI的解剖模型中进行电场模拟，研究了优化电极放置以在M1和SMA的腿部区域诱导最大电场对健康个体运动表现和皮层兴奋性的影响。

方法

共有36名健康志愿者参与了这项随机、三盲、假对照实验。他们按性别分层，并根据刺激模式随机分为三组之一，包括（1）阳极和阴极电极分别置于FCz和POz上方的tDCS（A-P tDCS），（2）阳极和阴极电极分别置于POz和FCz上方的tDCS（P-A tDCS），以及（3）假tDCS。tDCS（2 mA，10分钟）后的坐立训练每3或4天进行一次，持续3周（共5次）。

结果

与假tDCS相比，A-P tDCS在3周训练后导致坐立次数显著增加，而P-A tDCS在3周训练后显著增加了膝关节屈肌峰值扭矩，并在第一次训练后立即降低了短间隔皮层内抑制（SICI），并在训练后保持这一状态。

讨论

这些结果表明，通过电场模拟估计的最大电场的优化电极放置可根据电流方向增强运动表现并调节皮层兴奋性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5604/11246916/47e3262965dd/fnins-18-1362607-g001.jpg

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模拟经颅直流电刺激（tDCS）电极放置以同时刺激初级运动皮层（M1）和辅助运动区（SMA），可根据电流方向增强运动表现并调节皮层兴奋性。

Simulating tDCS electrode placement to stimulate both M1 and SMA enhances motor performance and modulates cortical excitability depending on current flow direction.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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