Metaplastic neuromodulation via transcranial direct current stimulation has no effect on corticospinal excitability and neuromuscular fatigue.

IF 1.7 4区 医学 Q4 NEUROSCIENCES Experimental Brain Research Pub Date : 2024-08-01 Epub Date: 2024-06-28 DOI:10.1007/s00221-024-06874-z
Madison R Boda, Lavender A Otieno, Ashleigh E Smith, Mitchell R Goldsworthy, Simranjit K Sidhu
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Abstract

Transcranial direct current stimulation (tDCS) is a non-invasive brain stimulation tool with potential for managing neuromuscular fatigue, possibly due to alterations in corticospinal excitability. However, inconsistencies in intra- and inter- individual variability responsiveness to tDCS limit its clinical use. Emerging evidence suggests harnessing homeostatic metaplasticity induced via tDCS may reduce variability and boost its outcomes, yet little is known regarding its influence on neuromuscular fatigue in healthy adults. We explored whether cathodal tDCS (ctDCS) prior to exercise combined with anodal tDCS (atDCS) could augment corticospinal excitability and attenuate neuromuscular fatigue. 15 young healthy adults (6 males, 22 ± 4 years) participated in four pseudo-randomised neuromodulation sessions: sham stimulation prior and during exercise, sham stimulation prior and atDCS during exercise, ctDCS prior and atDCS during exercise, ctDCS prior and sham stimulation during exercise. The exercise constituted an intermittent maximal voluntary contraction (MVC) of the right first dorsal interosseous (FDI) for 10 min. Neuromuscular fatigue was quantified as an attenuation in MVC force, while motor evoked potential (MEP) amplitude provided an assessment of corticospinal excitability. MEP amplitude increased during the fatiguing exercise, whilst across time, force decreased. There were no differences in MEP amplitudes or force between neuromodulation sessions. These outcomes highlight the ambiguity of harnessing metaplasticity to ameliorate neuromuscular fatigue in young healthy individuals.

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通过经颅直流电刺激进行的变态反应神经调控对皮质脊髓兴奋性和神经肌肉疲劳没有影响。
经颅直流电刺激(tDCS)是一种非侵入性的脑刺激工具,可能由于皮质脊髓兴奋性的改变,它具有控制神经肌肉疲劳的潜力。然而,个体内部和个体之间对 tDCS 反应的不一致性限制了它在临床上的应用。新出现的证据表明,利用通过 tDCS 诱导的平衡性变态反应可能会降低变异性并提高其效果,但人们对其对健康成年人神经肌肉疲劳的影响知之甚少。我们探讨了运动前阴极 tDCS(ctDCS)结合阳极 tDCS(atDCS)是否能增强皮质脊髓兴奋性并减轻神经肌肉疲劳。15 名年轻健康的成年人(6 名男性,22 ± 4 岁)参加了四次伪随机神经调控治疗:运动前和运动中的假刺激、运动前的假刺激和运动中的 atDCS、运动前的 ctDCS 和运动中的 atDCS、运动前的 ctDCS 和运动中的假刺激。运动由右侧第一背骨间肌(FDI)间歇性最大自主收缩(MVC)构成,持续 10 分钟。神经肌肉疲劳通过 MVC 力的衰减进行量化,而运动诱发电位 (MEP) 振幅则提供了皮质脊髓兴奋性的评估。在疲劳运动中,MEP 振幅增加,而在不同时间内,肌力下降。不同神经调控疗程之间的 MEP 振幅或肌力没有差异。这些结果凸显了利用元弹力改善年轻健康人神经肌肉疲劳的模糊性。
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来源期刊
CiteScore
3.60
自引率
5.00%
发文量
228
审稿时长
1 months
期刊介绍: Founded in 1966, Experimental Brain Research publishes original contributions on many aspects of experimental research of the central and peripheral nervous system. The focus is on molecular, physiology, behavior, neurochemistry, developmental, cellular and molecular neurobiology, and experimental pathology relevant to general problems of cerebral function. The journal publishes original papers, reviews, and mini-reviews.
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