执行功能协调与任务相关的步态波动的调节。
Executive function orchestrates regulation of task-relevant gait fluctuations.
机构信息
Nebraska Biomechanics Core Facility, University of Nebraska at Omaha, Omaha, NE, USA.
出版信息
Gait Posture. 2013 Jul;38(3):537-40. doi: 10.1016/j.gaitpost.2012.12.018. Epub 2013 Jan 20.
Abstract
Humans apply a minimum intervention principle to regulate treadmill walking, rapidly correcting fluctuations in the task-relevant variable (step speed: SS) while ignoring fluctuations in the task-irrelevant variables (step time: ST; step length: SL). We examined whether the regulation of fluctuations in SS and not in ST and SL depends on high-level, executive function, processes. Young adults walked on a treadmill without a cognitive requirement and while performing the cognitive task of dichotic listening. SS fluctuations became less anti-persistent when performing dichotic listening, meaning that taxing executive function impaired the ability to rapidly correct speed deviations on subsequent steps. Conversely, performing dichotic listening had no effect on SL and ST persistent fluctuations. Findings suggest that high-level brain processes are involved only in regulating gait task-relevant variables.
摘要
人类采用最小干预原则来调节跑步机行走,在忽略任务无关变量(步速:SS;步长:SL)波动的同时,迅速纠正与任务相关的变量(步时:ST)的波动。我们研究了调节 SS 的波动而不是 ST 和 SL 的波动是否依赖于高级执行功能过程。年轻人在没有认知要求的情况下在跑步机上行走,同时执行双听任务的认知任务。当执行双听任务时,SS 的波动变得不那么反持续性,这意味着执行功能的负担损害了快速纠正后续步速偏差的能力。相反,执行双听任务对 SL 和 ST 的持续性波动没有影响。研究结果表明,高级大脑过程仅参与调节步态任务相关变量。
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