阳极经颅直流电刺激后电场对运动皮层兴奋性的微小影响。

Small effects of electric field on motor cortical excitability following anodal tDCS.

作者信息

Laakso Ilkka, Tani Keisuke, Gomez-Tames Jose, Hirata Akimasa, Tanaka Satoshi

机构信息

Department of Electrical Engineering and Automation, Aalto University, 02150 Espoo, Finland.

Faculty of Psychology, Otemon Gakuin University, Ibaraki, Osaka 567-8502, Japan.

出版信息

iScience. 2024 Feb 1;27(2):108967. doi: 10.1016/j.isci.2024.108967. eCollection 2024 Feb 16.

DOI:10.1016/j.isci.2024.108967

PMID:38352229

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10863330/

Abstract

The dose-response characteristics of transcranial direct current stimulation (tDCS) remain uncertain but may be related to variability in brain electric fields due to individual anatomical factors. Here, we investigated whether the electric fields influence the responses to motor cortical tDCS. In a randomized cross-over design, 21 participants underwent 10 min of anodal tDCS with 0.5, 1.0, 1.5, or 2.0 mA or sham. Compared to sham, all active conditions increased the size of motor evoked potentials (MEP) normalized to the pre-tDCS baseline, irrespective of anterior or posterior magnetic test stimuli. The electric field calculated in the motor cortex of each participant had a nonlinear effect on the normalized MEP size, but its effects were small compared to those of other participant-specific factors. The findings support the efficacy of anodal tDCS in enhancing the MEP size but do not demonstrate any benefits of personalized electric field modeling in explaining tDCS response variability.

摘要

经颅直流电刺激（tDCS）的剂量反应特性尚不确定，但可能与个体解剖因素导致的脑电场变化有关。在此，我们研究了电场是否会影响对运动皮层tDCS的反应。在一项随机交叉设计中，21名参与者接受了10分钟的阳极tDCS，电流分别为0.5、1.0、1.5或2.0毫安或假刺激。与假刺激相比，所有有效刺激条件均增加了相对于tDCS前基线归一化的运动诱发电位（MEP）的大小，无论前侧还是后侧磁测试刺激如何。在每个参与者的运动皮层中计算出的电场对归一化MEP大小有非线性影响，但与其他参与者特异性因素相比，其影响较小。这些发现支持阳极tDCS在增加MEP大小方面的有效性，但未证明个性化电场建模在解释tDCS反应变异性方面有任何益处。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ea47/10863330/3f2416f3e954/fx1.jpg

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阳极经颅直流电刺激后电场对运动皮层兴奋性的微小影响。

Small effects of electric field on motor cortical excitability following anodal tDCS.

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