经脊髓直流电刺激的强度影响皮质-脊髓系统的兴奋性

Q4 Medicine

Genes and Cells Pub Date : 2023-10-16 DOI:10.23868/gc551818

Alena Popyvanova, Ekaterina Pomelova Pomelova, Dimitri Bredikhin, Maria Koriakina, Anna Shestakova, Evgeny Blagovechtchenski

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引用次数: 0

摘要

背景:经脊髓直流电刺激(tsDCS)影响皮质脊髓系统(CSS)，这是控制精确自主运动的中枢人体系统之一。众所周知，刺激效果对蒙太奇和应用刺激方案非常敏感，因为它可以涉及不同的神经元机制。& # x0D;目的:本研究旨在评估应用于颈大脊髓(C7-Th1节段)水平的阳极式tsDCS参数对正常人颈大脊髓兴奋性和运动技能矫正的影响。& # x0D;方法:研究对象为81名年龄21.19 ~ 3.2岁的健康成人。通过经颅磁刺激初级运动皮层第一背骨间肌的运动诱发电位(MEP)来评估tsDCS的效果，刺激前，刺激后立即和15分钟后。结果:我们的研究结果表明，在颈椎C7-Th1水平以1.5 mA的电流施加11分钟的阳极tsDCS影响FDI肌，在刺激后立即降低tms诱导的MEP振幅。刺激15分钟后，MEP的振幅增加。强度为2、5 mA的tsDCS对MEP的幅值变化没有影响。同样，我们发现在9-HPT和SRT时，1.5 mA刺激对健康成人运动技能纠正的影响与2.5 mA没有差异。& # x0D;结论:这些结果增加了关于诱导CSS兴奋性和tsDCS影响健康成人运动技能能力的最佳适当刺激电流强度的信息。

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THE INTENSITY OF TRANSSPINAL DIRECT CURRENT STIMULATION AFFECTS THE EXCITABILITY OF THE CORTICOSPINAL SYSTEM

BACKGROUND: Transspinal direct current stimulation (tsDCS) affects the corticospinal system (CSS), one of the central human systems associated with controlling precise voluntary movements. It is known, that the stimulation effects are very sensitive to montage and protocols of applied stimulation, because it can involve different neuronal mechanisms. AIM: This study aimed to estimate the parameters of anodal tsDCS applied at the level of the cervical enlargement of the spinal cord (C7-Th1 segments) on the excitability of the CSS and the correction of motor skills in healthy people. METHODS: The study involved 81 healthy adults aged 21.19 3.2 years. The effect of tsDCS was assessed using motor evoked potentials (MEP) from the first dorsal interosseous (FDI) muscle by transcranial magnetic stimulation in the primary motor cortex before stimulation, immediately after stimulation, and after 15 minutes. RESULTS: Our results showed that the application of 11-minute anodal tsDCS at the level of the cervical spine C7-Th1 with a current of 1.5 mA affects the FDI muscle, initially reducing the amplitude of TMS-induced MEP immediately after stimulation. The amplitude of the MEP increases after 15 minutes of stimulation. tsDCS with intensity 2,5 mA does not affect the MEP's amplitude change. Similarly, we found no difference in the effect of 1.5 mA stimulation on the correction of motor skills in healthy adults at 9-HPT and SRT, as with 2.5 mA. CONCLUSION: These results add information about optimally appropriate stimulation current intensities to induce CSS excitability and the ability of tsDCS to influence motor skills in healthy adults.

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来源期刊

Genes and Cells Medicine-Transplantation

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： “Genes and Cells” (the old name is “Cell Transplantology and Tissue Engineering”) is a peer-reviewed scientific and practical journal recommended by the Higher Attestation Commission of the Ministry of Education and Science of the Russian Federation for publishing basic materials of dissertation research. Originally conceived as a highly specialized publication, the Journal has now gained an ever wider target audience. If at the beginning of its journey — from September 2005 — the target audience of the journal were biotechnologists, specialists in the field of molecular and cell biology, by now it has expanded with medical practitioners. Such progressive dynamics are absolutely natural — over the last 7-10 years, biomedical technologies have come out of the exotic category, lack of understanding of the inhabitants and mistrust of clinicians have been replaced by interest and awareness of the need to use biotechnology tools in medicine no longer tomorrow, but today. The sections of the journal are formulated to fully disclose the target topics of the publication, convey to readers the opinions of leading experts in the field of biomedical technologies on topical issues of concern, acquaint them with the most significant recent foreign and domestic research, materials of thematic conferences, present analytical information on fundamental issues of biomedical technologies trends in the biotech business. The journal includes the following headings: “expert opinions”, “cell technology news”, “reviews”, “original research”, “clinical experience”, “discussion and general theoretical work”, “stem cell business”.