经颅直流电刺激对皮质脊髓兴奋性的差异调制:电极大小的影响。
a-tDCS differential modulation of corticospinal excitability: the effects of electrode size.
机构信息
Department of Physiotherapy, School of Primary Health Care, Faculty of Medicine, Nursing and Health Sciences, Monash University, Melbourne, Victoria 3199, Australia.
出版信息
Brain Stimul. 2013 Nov;6(6):932-7. doi: 10.1016/j.brs.2013.04.005. Epub 2013 Apr 28.
BACKGROUND
Novel noninvasive brain stimulation techniques such as transcranial direct current stimulation (tDCS) have been developed in recent years. tDCS-induced corticospinal excitability changes depend on two important factors: current density and electrodes size. Despite clinical success with existing tDCS parameters; optimal protocols are still not entirely set.
OBJECTIVE
The current study aimed to investigate the effects of anodal tDCS (a-tDCS) with three electrode sizes on corticospinal excitability.
METHODS
a-tDCS was applied with three active electrode sizes of 12, 24 and 35 cm(2) with a constant current density of 0.029 mA/cm(2) on twelve right handed healthy individuals (mean age: 34.5 ± 10.32 years) in different sessions at least 48 h apart. a-tDCS was applied continuously for 10 min, with a constant reference electrode size of 35 cm(2). The corticospinal excitability of extensor carpi radialis muscle (ECR) was measured before and immediately after the intervention and at 10, 20 and 30 min thereafter.
RESULTS
We found that smaller electrode may produce more focal current density and could lead to more effective and localized neural modulation than the larger ones. Post hoc comparisons showed that active electrode of 12 cm(2) size induces the biggest increase in the corticospinal excitability compared to bigger electrode sizes, 24 cm(2) (P = 0.002) and 35 cm(2) (P = 0.000). There was no significant difference between two larger electrode sizes (24 cm(2) and 35 cm(2)) (P = 0.177). a-tDCS resulted in significant excitability enhancement lasting for 30 min after the end of stimulation in the 12 and 24 cm(2) electrode size conditions (P < 0.005). However, in 35 cm(2) electrode size condition, the MEP amplitudes of the ECR did not differ significantly from baseline value in 20 and 30 min post stimulation (P > 0.005).
CONCLUSION
Reducing stimulation electrode size to one third of the conventional one results in spatially more focused stimulation and increases the efficacy of a-tDCS for induction of larger corticospinal excitability. This may be due to the fact that larger electrodes stimulate nearby cortical functional areas which can have inhibitory effects on primary motor cortex.
背景
近年来,出现了一些新的非侵入性脑刺激技术,如经颅直流电刺激(tDCS)。tDCS 诱导的皮质脊髓兴奋性变化取决于两个重要因素:电流密度和电极尺寸。尽管现有 tDCS 参数已取得临床成功,但最佳方案仍未完全确定。
目的
本研究旨在探讨三种电极尺寸的阳极 tDCS(a-tDCS)对皮质脊髓兴奋性的影响。
方法
12 名右利手健康个体(平均年龄:34.5±10.32 岁)在至少相隔 48 小时的不同时段分别接受三种不同的主动电极尺寸(12、24 和 35cm²)、恒定电流密度(0.029mA/cm²)的 a-tDCS 治疗。a-tDCS 持续 10 分钟,参考电极尺寸恒定为 35cm²。在干预前、干预后即刻以及干预后 10、20 和 30 分钟测量伸腕肌(ECR)的皮质脊髓兴奋性。
结果
我们发现较小的电极可能产生更集中的电流密度,从而比大电极更有效地产生局部神经调节。事后比较显示,与较大电极尺寸(24cm²,P=0.002;35cm²,P=0.000)相比,12cm² 尺寸的主动电极可引起皮质脊髓兴奋性的最大增加。两个较大电极尺寸(24cm² 和 35cm²)之间无显著差异(P=0.177)。在 12cm² 和 24cm² 电极尺寸条件下,a-tDCS 刺激结束后 30 分钟内可显著增强兴奋性(P<0.005)。然而,在 35cm² 电极尺寸条件下,ECR 的 MEP 振幅在刺激后 20 和 30 分钟与基线值无显著差异(P>0.005)。
结论
将刺激电极尺寸缩小至常规尺寸的三分之一可实现更集中的空间刺激,并提高 a-tDCS 诱导更大皮质脊髓兴奋性的效果。这可能是因为较大的电极刺激了附近的皮质功能区,对初级运动皮层产生抑制作用。
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