练习新颖的、类似实践的动作:重复的生理效应。
Practicing Novel, Praxis-Like Movements: Physiological Effects of Repetition.
作者信息
Ewen Joshua B, Pillai Ajay S, McAuliffe Danielle, Lakshmanan Balaji M, Ament Katarina, Hallett Mark, Crone Nathan E, Mostofsky Stewart H
机构信息
Clinical Neurophysiology Laboratory, Department of Neurology and Developmental Medicine, Kennedy Krieger InstituteBaltimore, MD, USA; Department of Neurology, Johns Hopkins University School of MedicineBaltimore, MD, USA; Department of Psychological and Brain Sciences, Johns Hopkins University Krieger School of Arts and SciencesBaltimore, MD, USA.
Clinical Neurophysiology Laboratory, Department of Neurology and Developmental Medicine, Kennedy Krieger InstituteBaltimore, MD, USA; Department of Neurology, Johns Hopkins University School of MedicineBaltimore, MD, USA.
出版信息
Front Hum Neurosci. 2016 Feb 5;10:22. doi: 10.3389/fnhum.2016.00022. eCollection 2016.
Our primary goal was to develop and validate a task that could provide evidence about how humans learn praxis gestures, such as those involving the use of tools. To that end, we created a video-based task in which subjects view a model performing novel, meaningless one-handed actions with kinematics similar to praxis gestures. Subjects then imitated the movements with their right hand. Trials were repeated six times to examine practice effects. EEG was recorded during the task. As a control, subjects watched videos of a model performing a well-established (over learned) tool-use gesture. These gestures were also imitated six times. Demonstrating convergent validity, EEG measures of task-related cortical activation were similar in topography and frequency between the novel gesture task and the overlearned, praxis gesture task. As in studies assessing motor skill learning with simpler tasks, cortical activation during novel gesture learning decreased as the same gestures were repeated. In the control condition, repetition of overlearned tool-use gestures were also associated with reductions in activation, though to a lesser degree. Given that even overlearned, praxis gestures show constriction of EEG activity with repetition, it is possible that that attentional effects drive some of the repetition effects seen in EEG measures of activation during novel gesture repetition.
我们的主要目标是开发并验证一项任务,该任务能够提供有关人类如何学习实践手势(例如那些涉及工具使用的手势)的证据。为此,我们创建了一个基于视频的任务,在该任务中,受试者观看一个模型执行新颖、无意义的单手动作,这些动作的运动学类似于实践手势。然后,受试者用右手模仿这些动作。试验重复六次以检验练习效果。在任务过程中记录脑电图(EEG)。作为对照,受试者观看一个模型执行已确立(过度学习)的工具使用手势的视频。这些手势也被模仿六次。为了证明收敛效度,在新颖手势任务和过度学习的实践手势任务之间,与任务相关的皮层激活的脑电图测量在地形和频率上相似。与使用更简单任务评估运动技能学习的研究一样,在新颖手势学习过程中,随着相同手势的重复,皮层激活会减少。在对照条件下,重复过度学习的工具使用手势也与激活减少有关,尽管程度较小。鉴于即使是过度学习的实践手势在重复时也会出现脑电图活动的收缩,在新颖手势重复期间脑电图激活测量中看到的一些重复效应可能是由注意力效应驱动的。
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