旋转磁场 TMS：与基于手部和腿部运动皮质的运动诱发电位和阈值的传统 TMS 的比较。

Rotational field TMS: Comparison with conventional TMS based on motor evoked potentials and thresholds in the hand and leg motor cortices.

机构信息

Brainsway Ltd, Israel; Department of Life Sciences, Ben-Gurion University, Beer Sheva, Israel.

Department of Life Sciences, Ben-Gurion University, Beer Sheva, Israel.

出版信息

Brain Stimul. 2020 May-Jun;13(3):900-907. doi: 10.1016/j.brs.2020.03.010. Epub 2020 Mar 23.

DOI:10.1016/j.brs.2020.03.010

PMID:32289723

Abstract

BACKGROUND

Transcranial magnetic stimulation (TMS) is a rapidly expanding technology utilized in research and neuropsychiatric treatments. Yet, conventional TMS configurations affect primarily neurons that are aligned parallel to the induced electric field by a fixed coil, making the activation orientation-specific. A novel method termed rotational field TMS (rfTMS), where two orthogonal coils are operated with a 90° phase shift, produces rotation of the electric field vector over almost a complete cycle, and may stimulate larger portion of the neuronal population within a given brain area.

OBJECTIVE

To compare the physiological effects of rfTMS and conventional unidirectional TMS (udTMS) in the motor cortex.

METHODS

Hand and leg resting motor thresholds (rMT), and motor evoked potential (MEP) amplitudes and latencies (at 120% of rMT), were measured using a dual-coil array based on the H7-coil, in 8 healthy volunteers following stimulation at different orientations of either udTMS or rfTMS.

RESULTS

For both target areas rfTMS produced significantly lower rMTs and much higher MEPs than those induced by udTMS, for comparable induced electric field amplitude. Both hand and leg rMTs were orientation-dependent.

CONCLUSIONS

rfTMS induces stronger physiologic effects in targeted brain regions at significantly lower intensities. Importantly, given the activation of a much larger population of neurons within a certain brain area, repeated application of rfTMS may induce different neuroplastic effects in neural networks, opening novel research and clinical opportunities.

摘要

背景

经颅磁刺激（TMS）是一种在研究和神经精神治疗中广泛应用的快速发展的技术。然而，传统的 TMS 配置主要影响与感应电场平行排列的神经元，使激活具有特定的方向。一种新的方法称为旋转磁场 TMS（rfTMS），其中两个正交线圈以 90°的相位差运行，产生电场矢量的旋转，几乎完成一个完整的周期，并且可能刺激特定脑区中更大比例的神经元群体。

目的

比较旋转磁场 TMS（rfTMS）和传统的单向 TMS（udTMS）在运动皮层中的生理效应。

方法

使用基于 H7 线圈的双线圈阵列，在 8 名健康志愿者中，分别在不同的 udTMS 或 rfTMS 刺激方向下，测量手部和腿部静息运动阈值（rMT）、运动诱发电位（MEP）幅度和潜伏期（在 rMT 的 120%）。

结果

对于两个目标区域，rfTMS 在可比的感应电场幅度下，产生的 rMT 明显低于 udTMS，而 MEP 则明显高于 udTMS。手部和腿部 rMT 均具有方向依赖性。

结论

rfTMS 以显著更低的强度在靶向脑区产生更强的生理效应。重要的是，由于在特定脑区的一定范围内激活了更多的神经元，重复应用 rfTMS 可能会在神经网络中引起不同的神经可塑性效应，开辟新的研究和临床机会。

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旋转磁场 TMS：与基于手部和腿部运动皮质的运动诱发电位和阈值的传统 TMS 的比较。

Rotational field TMS: Comparison with conventional TMS based on motor evoked potentials and thresholds in the hand and leg motor cortices.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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