经颅磁刺激揭示了初级运动皮层内皮质回路的不对称功效。

Transcranial magnetic stimulation reveals asymmetrical efficacy of intracortical circuits in primary motor cortex.

作者信息

Hammond Geoff, Faulkner Deb, Byrnes Michelle, Mastaglia Frank, Thickbroom Gary

机构信息

School of Psychology, The University of Western Australia, Crawley, WA 6009, Australia.

出版信息

Exp Brain Res. 2004 Mar;155(1):19-23. doi: 10.1007/s00221-003-1696-x. Epub 2003 Nov 8.

DOI:10.1007/s00221-003-1696-x

PMID:15064880

Abstract

The efficacy of inhibitory and excitatory intracortical circuits acting on the representation of an intrinsic hand muscle in the primary motor cortex of both hemispheres was measured with paired transcranial magnetic stimuli in right-handed subjects. Both intracortical inhibition (measured with an interstimulus interval of 3 ms) and intracortical facilitation (measured with an interstimulus interval of 16 ms) developed more rapidly with increasing conditioning stimulus intensity in the dominant than the non-dominant hand. We conclude that the intracortical circuits in the primary motor cortex are more potent in the dominant than the non-dominant hemisphere, and hypothesize that this difference is a factor in the asymmetrical dexterity associated with hand preference.

摘要

在右利手受试者中，通过配对经颅磁刺激测量了作用于双侧初级运动皮层中固有手部肌肉表征的抑制性和兴奋性皮质内回路的功效。皮质内抑制（以3毫秒的刺激间隔测量）和皮质内易化（以16毫秒的刺激间隔测量）均随着优势手条件刺激强度的增加而比非优势手更快地发展。我们得出结论，初级运动皮层中的皮质内回路在优势半球比非优势半球更有效，并推测这种差异是与手偏好相关的不对称灵活性的一个因素。

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经颅磁刺激揭示了初级运动皮层内皮质回路的不对称功效。

Transcranial magnetic stimulation reveals asymmetrical efficacy of intracortical circuits in primary motor cortex.

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