等长收缩会干扰经颅直流电刺激（tDCS）诱导的可塑性：人类运动皮层状态依赖型神经调制的证据。

Isometric contraction interferes with transcranial direct current stimulation (tDCS) induced plasticity: evidence of state-dependent neuromodulation in human motor cortex.

机构信息

Institute of Neurosciences and Medicine (INM-3), Cognitive Neurology Section, Research Centre Juelich, Germany.

出版信息

Restor Neurol Neurosci. 2011;29(5):311-20. doi: 10.3233/RNN-2011-0601.

DOI:10.3233/RNN-2011-0601

PMID:21697590

Abstract

BACKGROUND AND PURPOSE

Neuroplastic alterations of cortical excitability and activity represent the likely neurophysiological foundation of learning and memory formation. Beyond their induction, alterations of these processes by subsequent modification of cortical activity, termed metaplasticity, came into the focus of interest recently. Animal slice experiments demonstrated that neuroplastic excitability enhancements, or diminutions, can be abolished by consecutive subthreshold stimulation. These processes, termed de-potentiation, and de-depression, have so far not been explored in humans.

METHODS

We combined neuroplasticity induction by transcranial direct current stimulation (tDCS) applied to the hand area of primary motor cortex (M1), which can be used to induce long-lasting excitability enhancements or reductions, dependent on the polarity of stimulation, with short-lasting voluntary muscle contraction (VMC), which itself does not induce plastic cortical excitability changes. Corticospinal and intra-cortical M1 excitability were monitored by different transcranial magnetic stimulation (TMS) protocols.

RESULTS

VMC reduced or tended to reverse the anodal tDCS-driven motor cortical excitability enhancement and the cathodal tDCS-induced excitability diminution. Our findings thus demonstrate de-potentiation- and de-depression-like phenomena at the system level in the human motor cortex.

CONCLUSION

This neurophysiological study may contribute to a better understanding of the balance between induction and reversal of plasticity associated with motor learning and rehabilitation processes.

摘要

背景与目的

皮质兴奋性和活动的神经可塑性改变代表了学习和记忆形成的可能神经生理学基础。除了它们的诱导之外，皮质活动随后的修饰（称为超可塑性）对这些过程的改变最近也成为了关注的焦点。动物切片实验表明，连续的阈下刺激可以消除神经可塑性的兴奋性增强或减弱。这些过程，称为去极化和去抑郁，迄今为止尚未在人类中进行探索。

方法

我们将经颅直流电刺激（tDCS）应用于初级运动皮层（M1）的手部区域来诱导神经可塑性，根据刺激的极性，tDCS 可用于诱导持久的兴奋性增强或降低，而短暂的自愿肌肉收缩（VMC）本身不会引起皮质兴奋性的变化。通过不同的经颅磁刺激（TMS）方案来监测皮质脊髓和 M1 内兴奋性。

结果

VMC 降低或倾向于逆转阳极 tDCS 驱动的运动皮质兴奋性增强和阴极 tDCS 诱导的兴奋性降低。我们的发现因此证明了人类运动皮质中存在类似于去极化和去抑郁的现象。

结论

这项神经生理学研究可能有助于更好地理解与运动学习和康复过程相关的诱导和逆转可塑性之间的平衡。

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等长收缩会干扰经颅直流电刺激（tDCS）诱导的可塑性：人类运动皮层状态依赖型神经调制的证据。

Isometric contraction interferes with transcranial direct current stimulation (tDCS) induced plasticity: evidence of state-dependent neuromodulation in human motor cortex.

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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