经颅磁刺激与神经可塑性。

Transcranial magnetic stimulation and neuroplasticity.

作者信息

Pascual-Leone A, Tarazona F, Keenan J, Tormos J M, Hamilton R, Catala M D

机构信息

Laboratory for Magnetic Brain Stimulation, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA, USA.

出版信息

Neuropsychologia. 1999 Feb;37(2):207-17. doi: 10.1016/s0028-3932(98)00095-5.

DOI:10.1016/s0028-3932(98)00095-5

PMID:10080378

Abstract

We review past results and present novel data to illustrate different ways in which TMS can be used to study neural plasticity. Procedural learning during the serial reaction time task (SRTT) is used as a model of neural plasticity to illustrate the applications of TMS. These different applications of TMS represent principles of use that we believe are applicable to studies of cognitive neuroscience in general and exemplify the great potential of TMS in the study of brain and behavior. We review the use of TMS for (1) cortical output mapping using focal, single-pulse TMS; (2) identification of the mechanisms underlying neuroplasticity using paired-pulse TMS techniques; (3) enhancement of the information of other neuroimaging techniques by transient disruption of cortical function using repetitive TMS; and finally (4) modulation of cortical function with repetitive TMS to influence behavior and guide plasticity.

摘要

我们回顾过去的研究结果并展示新的数据，以说明经颅磁刺激（TMS）可用于研究神经可塑性的不同方式。序列反应时任务（SRTT）中的程序性学习被用作神经可塑性模型，以说明TMS的应用。TMS的这些不同应用代表了我们认为普遍适用于认知神经科学研究的使用原则，并例证了TMS在脑与行为研究中的巨大潜力。我们回顾了TMS的以下用途：（1）使用聚焦单脉冲TMS进行皮质输出映射；（2）使用配对脉冲TMS技术识别神经可塑性的潜在机制；（3）通过重复TMS短暂破坏皮质功能来增强其他神经成像技术的信息；最后（4）用重复TMS调节皮质功能以影响行为并引导可塑性。

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经颅磁刺激与神经可塑性。

Transcranial magnetic stimulation and neuroplasticity.

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