Universidade da Coruña, NEUROcom (Neuroscience and Motor Control Group) and CICA-Centro Interdisciplinar de Química e Bioloxía, Department of Biomedical Sciences, Medicine and Physiotherapy-INEF Galicia, A Coruña, Spain.
Universidade da Coruña, NEUROcom (Neuroscience and Motor Control Group) and CICA-Centro Interdisciplinar de Química e Bioloxía, Department of Biomedical Sciences, Medicine and Physiotherapy-INEF Galicia, A Coruña, Spain.
Neuroscience. 2024 Aug 30;554:128-136. doi: 10.1016/j.neuroscience.2024.07.022. Epub 2024 Jul 15.
Aftereffects of non-invasive brain stimulation techniques may be brain state-dependent. Either continuous theta-burst stimulation (cTBS) as transcranial static magnetic field stimulation (tSMS) reduce cortical excitability. Our objective was to explore the aftereffects of tSMS on a M1 previously stimulated with cTBS. The interaction effect of two inhibitory protocols on cortical excitability was tested on healthy volunteers (n = 20), in two different sessions. A first application cTBS was followed by real-tSMS in one session, or sham-tSMS in the other session. When intracortical inhibition was tested with paired-pulse transcranial magnetic stimulation, LICI (ie., long intracortical inhibition) increased, although the unconditioned motor-evoked potential (MEP) remained stable. These effects were observed in the whole sample of participants regardless of the type of static magnetic field stimulation (real or sham) applied after cTBS. Subsequently, we defined a group of good-responders to cTBS (n = 9) on whom the unconditioned MEP amplitude reduced after cTBS and found that application of real-tSMS (subsequent to cTBS) increased the unconditioned MEP. This MEP increase was not found when sham-tSMS followed cTBS. The interaction of tSMS with cTBS seems not to take place at inhibitory cortical interneurons tested by LICI, since LICI was not differently affected after real and sham tSMS. Our results indicate the existence of a process of homeostatic plasticity when tSMS is applied after cTBS. This work suggests that tSMS aftereffects arise at the synaptic level and supports further investigation into tSMS as a useful tool to restore pathological conditions with altered cortical excitability.
非侵入性脑刺激技术的后效可能依赖于大脑状态。连续 theta 爆发刺激(cTBS)和经颅静磁场刺激(tSMS)都可降低皮质兴奋性。我们的目的是探索 tSMS 对先前用 cTBS 刺激的 M1 的后效。在两个不同的会话中,在 20 名健康志愿者中测试了两种抑制性方案对皮质兴奋性的交互作用。在一个会话中,cTBS 后紧接着进行 real-tSMS,而在另一个会话中进行 sham-tSMS。当使用成对脉冲经颅磁刺激测试皮质内抑制时,虽然未条件运动诱发电位(MEP)保持稳定,但 LICI(即长皮质内抑制)增加。这些效应在整个参与者样本中观察到,与 cTBS 后应用的静磁场刺激类型(真实或 sham)无关。随后,我们定义了一组 cTBS 的良好反应者(n=9),cTBS 后这些个体的未条件 MEP 幅度降低,发现 real-tSMS(继 cTBS 之后)的应用增加了未条件 MEP。当 sham-tSMS 继 cTBS 之后,没有发现这种 MEP 增加。当 tSMS 与 cTBS 相互作用时,似乎不会发生在通过 LICI 测试的抑制性皮质中间神经元上,因为在真实和 sham tSMS 后,LICI 没有受到不同的影响。我们的结果表明,当 tSMS 在 cTBS 之后应用时,存在一种同源性可塑性的过程。这项工作表明,tSMS 的后效是在突触水平产生的,并支持进一步研究 tSMS 作为一种有用的工具,用于恢复皮质兴奋性改变的病理状态。
