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自我指导练习后个体感觉运动技能的稳固保持。

Robust retention of individual sensorimotor skill after self-guided practice.

作者信息

Park Se-Woong, Sternad Dagmar

机构信息

Department of Biology, Northeastern University, Boston, Massachusetts;

Department of Biology, Northeastern University, Boston, Massachusetts; Department of Electrical and Computer Engineering, Northeastern University, Boston, Massachusetts; Department of Physics, Northeastern University, Boston, Massachusetts; and Center for the Interdisciplinary Research of Complex Systems, Northeastern University, Boston, Massachusetts.

出版信息

J Neurophysiol. 2015 Apr 1;113(7):2635-45. doi: 10.1152/jn.00884.2014. Epub 2015 Feb 4.

DOI:10.1152/jn.00884.2014
PMID:25652928
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4416601/
Abstract

Long-term retention of a motor skill has received relatively little systematic study, even though lasting neuroplasticity is the holy grail of any clinical intervention. This study examined the acquisition and retention of a novel bimanual polyrhythmic skill, practiced with sparse explicit feedback mimicking real-life scenarios. Self-paced and metronome-paced practice conditions were compared in their effect on long-term retention. Two groups of subjects first underwent extensive practice of 20 practice sessions over 2 mo, then followed up with three retention sessions after 3 mo. Results showed that subjects developed robust spatiotemporal patterns, despite the lack of reward and little quantitative error feedback about their performance (Hypothesis 1). These movement patterns were reproduced after a 3-mo interval, frequently even in the first trial, with no intermediate practice (Hypothesis 2). Self-paced training of movement patterns led to slightly less variability in the retention test (Hypothesis 3). These results document the specificity and stability of kinematic patterns and their underlying neuroplastic changes and underscore the effectiveness of self-guided practice. The findings are discussed in the context of current neuroimaging results and their clinical implications.

摘要

尽管持久的神经可塑性是任何临床干预的圣杯,但运动技能的长期保持相对较少受到系统研究。本研究考察了一种新颖的双手多节奏技能的习得和保持情况,该技能在模拟现实生活场景的稀疏明确反馈下进行练习。比较了自定节奏和节拍器节奏练习条件对长期保持的影响。两组受试者首先在2个月内进行了20次练习的广泛练习,然后在3个月后进行了三次保持测试。结果表明,尽管缺乏奖励且关于其表现的定量错误反馈很少,但受试者仍形成了强大的时空模式(假设1)。这些运动模式在3个月的间隔后被重现,甚至在第一次试验中就经常出现,且没有中间练习(假设2)。运动模式的自定节奏训练在保持测试中导致的变异性略小(假设3)。这些结果证明了运动模式及其潜在神经可塑性变化的特异性和稳定性,并强调了自我指导练习的有效性。研究结果在当前神经影像学结果及其临床意义的背景下进行了讨论。

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