使用伽马经颅交流电刺激增强间歇性 theta 爆发刺激的类似长时程增强的可塑性效应。

Boosting the LTP-like plasticity effect of intermittent theta-burst stimulation using gamma transcranial alternating current stimulation.

机构信息

Department of Human Neuroscience, Sapienza University of Rome, Viale dell'Università 30, 00185, Rome, Italy.

Department of Human Neuroscience, Sapienza University of Rome, Viale dell'Università 30, 00185, Rome, Italy; IRCCS Neuromed Institute, Via Atinense 18, 86077, Pozzilli, IS, Italy.

出版信息

Brain Stimul. 2018 Jul-Aug;11(4):734-742. doi: 10.1016/j.brs.2018.03.015. Epub 2018 Mar 24.

DOI:10.1016/j.brs.2018.03.015

PMID:29615367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6022811/

Abstract

BACKGROUND

Transcranial Alternating Current Stimulation (tACS) consists in delivering electric current to the brain using an oscillatory pattern that may entrain the rhythmic activity of cortical neurons. When delivered at gamma frequency, tACS modulates motor performance and GABA-A-ergic interneuron activity.

OBJECTIVE

Since interneuronal discharges play a crucial role in brain plasticity phenomena, here we co-stimulated the primary motor cortex (M1) in healthy subjects by means of tACS during intermittent theta-burst stimulation (iTBS), a transcranial magnetic stimulation paradigm known to induce long-term potentiation (LTP)-like plasticity.

METHODS

We measured and compared motor evoked potentials before and after gamma, beta and sham tACS-iTBS. While we delivered gamma-tACS, we also measured short-interval intracortical inhibition (SICI) to detect any changes in GABA-A-ergic neurotransmission.

RESULTS

Gamma, but not beta and sham tACS, significantly boosted and prolonged the iTBS-induced after-effects. Interestingly, the extent of the gamma tACS-iTBS after-effects correlated directly with SICI changes.

CONCLUSIONS

Overall, our findings point to a link between gamma oscillations, interneuronal GABA-A-ergic activity and LTP-like plasticity in the human M1. Gamma tACS-iTBS co-stimulation might represent a new strategy to enhance and prolong responses to plasticity-inducing protocols, thereby lending itself to future applications in the neurorehabilitation setting.

摘要

背景

经颅交流电刺激（tACS）通过传递节律性电脉冲到大脑来实现，这些电脉冲可能会引发皮质神经元的节律性活动。当在伽马频率下传递时，tACS 可以调节运动表现和 GABA-A 能中间神经元的活动。

目的

由于中间神经元的放电在大脑可塑性现象中起着至关重要的作用，因此在这里，我们在健康受试者的初级运动皮层（M1）上进行 tACS 共刺激，同时使用经颅磁刺激（TMS）的间歇性 theta 爆发刺激（iTBS）模式，该模式已知可诱导长时程增强（LTP）样可塑性。

方法

我们在伽马、β和假 tACS-iTBS 之前和之后测量和比较运动诱发电位。当我们传递伽马-tACS 时，我们还测量了短间隔内皮质抑制（SICI），以检测 GABA-A 能神经传递的任何变化。

结果

只有伽马而非β和假 tACS 显著增强和延长了 iTBS 诱导的后效。有趣的是，伽马 tACS-iTBS 后效的程度与 SICI 变化直接相关。

结论

总体而言，我们的研究结果表明在人类 M1 中，伽马振荡、中间神经元 GABA-A 能活性和 LTP 样可塑性之间存在联系。伽马 tACS-iTBS 共刺激可能代表一种增强和延长对诱导可塑性的反应的新策略，从而为未来在神经康复领域的应用提供了可能性。

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