运动适应过程中不同的错误大小会影响脑卒中后地面行走的转移。

Different Error Size During Locomotor Adaptation Affects Transfer to Overground Walking Poststroke.

机构信息

1 University of Delaware, Newark, DE, USA.

2 Federal University of São Carlos, São Carlos, SP, Brazil.

出版信息

Neurorehabil Neural Repair. 2018 Dec;32(12):1020-1030. doi: 10.1177/1545968318809921. Epub 2018 Nov 9.

DOI:10.1177/1545968318809921

PMID:30409103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6298810/

Abstract

BACKGROUND

Studies in neurologically intact subjects suggest that the gradual presentation of small perturbations (errors) during learning results in better transfer of a newly learned walking pattern to overground walking. Whether the same result would be true after stroke is not known.

OBJECTIVE

To determine whether introducing gradual perturbations, during locomotor learning using a split-belt treadmill influences learning the novel walking pattern or transfer to overground walking poststroke.

METHODS

Twenty-six chronic stroke survivors participated and completed the following walking testing paradigm: baseline overground walking; baseline treadmill walking; split-belt treadmill/adaptation period (belts moving at different speeds); catch trial (belts at same speed); post overground walking. Subjects were randomly assigned to the Gradual group (gradual changes in treadmill belts speed during adaptation) or the Abrupt group (a single, large, abrupt change during adaptation). Step length asymmetry adaptation response on the treadmill and transfer of learning to overground walking was assessed.

RESULTS

Step length asymmetry during the catch trial was the same between groups ( P = .195) confirming that both groups learned a similar amount. The magnitude of transfer to overground walking was greater in the Gradual than in the Abrupt group ( P = .041).

CONCLUSIONS

The introduction of gradual perturbations (small errors), compared with abrupt (larger errors), during a locomotor adaptation task seems to improve transfer of the newly learned walking pattern to overground walking poststroke. However, given the limited magnitude of transfer, future studies should examine other factors that could impact locomotor learning and transfer poststroke.

摘要

背景

在神经完整的受试者中进行的研究表明，在学习过程中逐渐呈现小的扰动（错误）会导致新学习的行走模式更好地转移到地面行走。但中风后是否会产生同样的结果还不得而知。

目的

确定在使用分带跑步机进行运动学习过程中引入逐渐的扰动是否会影响新行走模式的学习或中风后对地面行走的转移。

方法

26 名慢性中风幸存者参与并完成了以下行走测试范式：地面行走基线；跑步机行走基线；分带跑步机/适应期（带速不同）；捕捉试验（带速相同）；地面行走后。受试者被随机分配到渐进组（适应期间跑步机带速逐渐变化）或突发组（适应期间单个大的突然变化）。评估了在跑步机上的步长不对称适应反应和学习向地面行走的转移。

结果

捕捉试验期间的步长不对称性在两组之间相同（P=.195），证实两组都学习了相似的量。渐进组向地面行走的转移幅度大于突发组（P=.041）。

结论

在运动适应任务中引入逐渐的扰动（小错误），与突发的（大错误）相比，似乎可以改善中风后新学习的行走模式向地面行走的转移。然而，鉴于转移的幅度有限，未来的研究应该检查其他可能影响中风后运动学习和转移的因素。

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