初级运动皮层在观察动作感知中的因果作用。
A Causal Role for Primary Motor Cortex in Perception of Observed Actions.
作者信息
Palmer Clare E, Bunday Karen L, Davare Marco, Kilner James M
机构信息
UCL Institute of Neurology, London, UK.
KU Leuven.
出版信息
J Cogn Neurosci. 2016 Dec;28(12):2021-2029. doi: 10.1162/jocn_a_01015. Epub 2016 Jul 26.
Abstract
It has been proposed that motor system activity during action observation may be modulated by the kinematics of observed actions. One purpose of this activity during action observation may be to predict the visual consequence of another person's action based on their movement kinematics. Here, we tested the hypothesis that the primary motor cortex (M1) may have a causal role in inferring information that is present in the kinematics of observed actions. Healthy participants completed an action perception task before and after applying continuous theta burst stimulation (cTBS) over left M1. A neurophysiological marker was used to quantify the extent of M1 disruption following cTBS and stratify our sample a priori to provide an internal control. We found that a disruption to M1 caused a reduction in an individual's sensitivity to interpret the kinematics of observed actions; the magnitude of suppression of motor excitability predicted this change in sensitivity.
摘要
有人提出,在动作观察期间运动系统的活动可能会受到所观察动作的运动学的调节。动作观察期间这种活动的一个目的可能是根据他人的运动运动学来预测其动作的视觉结果。在此,我们测试了以下假设:初级运动皮层(M1)在推断所观察动作的运动学中存在的信息方面可能具有因果作用。健康参与者在对左侧M1施加连续theta爆发刺激(cTBS)之前和之后完成了一项动作感知任务。使用一种神经生理学标记来量化cTBS后M1的破坏程度,并在实验前对我们的样本进行分层以提供内部对照。我们发现,M1的破坏导致个体解释所观察动作运动学的敏感性降低;运动兴奋性的抑制程度预测了这种敏感性变化。
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