Sensorimotor Performance Lab, Universität Konstanz, Konstanz, Germany.
J Neurosci Res. 2018 Sep;96(9):1600-1609. doi: 10.1002/jnr.24254. Epub 2018 Apr 26.
Transcranial direct current stimulation (tDCS) has the capacity to enhance force output during a short-lasting maximal voluntary contraction (MVC) as well as during a long-lasting submaximal voluntary contraction until task failure. However, its effect on an intermittent maximal effort is not known. We hypothesized that anodal tDCS applied during or before a maximal fatigue task increases the amplitude of maximal voluntary contraction (aMVC) and voluntary activation (VA) in young healthy male participants. We measured VA, potentiated twitch at rest (Ptw), root mean square electromyogram (EMG), and aMVC during a fatiguing task that consisted of 35 × 5 s MVC of knee extensors and was performed during tDCS or 10 min after the end of tDCS (sham, anodal, or cathodal treatments). No effect of tDCS was detected on the first MVC but, when compared to sham tDCS, both anodal tDCS and cathodal tDCS reduced aMVC when tDCS was applied during the task (p < .001) and only anodal tDCS reduced aMVC when applied 10 min before the task (p = .03). The reductions in aMVC were accompanied by reductions in EMG of M. vastus lateralis for both tDCS treatments as well as in Ptw only during anodal tDCS and in VA only during cathodal tDCS. Both cathodal tDCS and anodal tDCS impaired force production during an intermittent fatiguing MVC task. The detrimental effects were stronger when tDCS was applied during the task. Here, cathodal and anodal tDCS specifically affected Ptw and VA indicating different underlying mechanisms.
经颅直流电刺激(tDCS)具有增强短暂最大自主收缩(MVC)期间以及长时间亚最大自主收缩期间力输出的能力,直至任务失败。然而,其对间歇性最大努力的影响尚不清楚。我们假设在最大疲劳任务期间或之前施加阳极 tDCS 会增加年轻健康男性参与者的最大自主收缩(aMVC)和自愿激活(VA)的幅度。我们测量了疲劳任务期间的 VA、休息时增强的 twitch(Ptw)、均方根肌电图(EMG)和 aMVC,该任务由 35 × 5 s 膝关节伸肌 MVC 组成,并在 tDCS 期间或 tDCS 结束后 10 分钟(假刺激、阳极或阴极处理)进行。tDCS 对第一次 MVC 没有影响,但是与假刺激相比,当 tDCS 在任务期间施加时,阳极 tDCS 和阴极 tDCS 都降低了 aMVC(p < 0.001),并且只有阳极 tDCS 在任务前 10 分钟施加时降低了 aMVC(p = 0.03)。aMVC 的降低伴随着两种 tDCS 治疗方法下的股外侧肌 EMG 降低,以及仅在阳极 tDCS 期间的 Ptw 降低和仅在阴极 tDCS 期间的 VA 降低。阴极 tDCS 和阳极 tDCS 都在间歇性疲劳 MVC 任务中损害了力的产生。当 tDCS 在任务期间施加时,有害影响更强。在这里,阴极和阳极 tDCS 特别影响 Ptw 和 VA,表明存在不同的潜在机制。
