经颅磁刺激的距离调整运动阈值

Distance-adjusted motor threshold for transcranial magnetic stimulation.

作者信息

Stokes Mark G, Chambers Christopher D, Gould Ian C, English Therese, McNaught Elizabeth, McDonald Odette, Mattingley Jason B

机构信息

MRC Cognition and Brain Sciences Unit, University of Cambridge, UK.

出版信息

Clin Neurophysiol. 2007 Jul;118(7):1617-25. doi: 10.1016/j.clinph.2007.04.004. Epub 2007 May 23.

DOI:10.1016/j.clinph.2007.04.004

PMID:17524764

Abstract

OBJECTIVE

To examine the relationship between coil-cortex distance and effective cortical stimulation using transcranial magnetic stimulation (TMS) in the left and right motor cortex. We also compare the effect of coil-cortex distance using 50 and 70 mm figure-eight stimulating coils.

METHODS

Coil-cortex distance was manipulated within each participant using 5 and 10 mm acrylic separators placed between the coil and scalp surface. The effect of cortical stimulation was indexed by resting motor threshold (MT).

RESULTS

Increasing distance between the coil and underlying cortex was associated with a steep linear increase in MT. For each additional millimetre separating the stimulating coil from the scalp surface, an additional approximately 2.8% of absolute stimulator output (approximately 0.062 T) was required to reach MT. The gradient of the observed distance effect did not differ between hemispheres, and no differences were observed between the 50 and 70 mm TMS coils.

CONCLUSIONS

Coil-cortex distance directly influences the magnitude of cortical stimulation in TMS. The relationship between TMS efficacy and coil-cortex distance is well characterised by a linear function, providing a simple and effective method for scaling stimulator output to a distance adjusted MT.

SIGNIFICANCE

MT measured at the scalp-surface is dependent on the underlying scalp-cortex distance, and therefore does not provide an accurate index of cortical excitability. Distance-adjusted MT provides a more accurate index of cortical excitability, and improves the safety and efficacy of MT-calibrated TMS.

摘要

目的

研究在左右运动皮层中，经颅磁刺激（TMS）时线圈与皮层距离和有效皮层刺激之间的关系。我们还比较了使用50毫米和70毫米的八字形刺激线圈时线圈与皮层距离的影响。

方法

在每个参与者中，通过在线圈和头皮表面之间放置5毫米和10毫米的丙烯酸垫片来调节线圈与皮层的距离。皮层刺激的效果通过静息运动阈值（MT）来衡量。

结果

线圈与下方皮层之间距离的增加与MT的急剧线性增加相关。刺激线圈与头皮表面每增加1毫米的距离，达到MT所需的绝对刺激器输出就额外增加约2.8%（约0.062特斯拉）。观察到的距离效应梯度在半球之间没有差异，并且在50毫米和70毫米的TMS线圈之间也没有观察到差异。

结论

线圈与皮层的距离直接影响TMS中皮层刺激的强度。TMS疗效与线圈与皮层距离之间的关系可以很好地用线性函数来描述，为将刺激器输出按距离调整后的MT进行缩放提供了一种简单有效的方法。

意义

在头皮表面测量的MT取决于潜在的头皮-皮层距离，因此不能提供皮层兴奋性的准确指标。距离调整后的MT提供了更准确的皮层兴奋性指标，并提高了MT校准的TMS的安全性和疗效。

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经颅磁刺激的距离调整运动阈值

Distance-adjusted motor threshold for transcranial magnetic stimulation.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

SIGNIFICANCE

目的

方法

结果

结论

意义

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