偏瘫步态中非患侧下肢的协调：预期和新出现的代偿模式。

Coordination of the non-paretic leg during hemiparetic gait: expected and novel compensatory patterns.

作者信息

Raja Bhavana, Neptune Richard R, Kautz Steven A

机构信息

Rehabilitation Science Doctoral Program, University of Florida, Gainesville, FL, USA.

出版信息

Clin Biomech (Bristol). 2012 Dec;27(10):1023-30. doi: 10.1016/j.clinbiomech.2012.08.005. Epub 2012 Sep 13.

DOI:10.1016/j.clinbiomech.2012.08.005

PMID:22981679

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3535278/

Abstract

BACKGROUND

Post-stroke hemiparesis is usually considered a unilateral motor control deficit of the paretic leg, while the non-paretic leg is assumed to compensate for paretic leg impairments and have minimal to no deficits. While the non-paretic leg electromyography (EMG) patterns are clearly altered, how the non-paretic leg acts to compensate remains to be established.

METHODS

Kinesiological data were recorded from sixty individuals with chronic hemiparesis (age: 60.9, SD=12.6 years, 21 females, 28 right hemiparetic, time since stroke: 4.5 years, SD 3.9 years), divided into three speed-based groups, and twenty similarly aged healthy individuals (age: 65.1, SD=10.4 years, 15 females). All walked on an instrumented split-belt treadmill at their self-selected speed and control subjects also walked at slower speeds matching those of the persons with hemiparesis. We determined the differences in magnitude and timing of non-paretic EMG activity relative to healthy control subjects in four pre-defined regions of stance phase of the gait cycle.

FINDINGS

Integrated EMG activity and EMG timing in the non-paretic leg were different in many muscles. Multiple compensatory patterns identified included: increased EMG output when the muscle was typically active in controls and novel compensatory EMG patterns that appeared to provide greater propulsion or support with little evidence of impaired motor performance.

INTERPRETATION

Most novel compensations were made possible by altered kinematics of the paretic and non-paretic leg (i.e., early stance plantarflexor activity provided propulsion due to the decreased advancement of the non-paretic foot) while others (late single limb stance knee extensor and late stance hamstring activity) appeared to be available mechanisms for increasing propulsion.

摘要

背景

中风后偏瘫通常被认为是患侧下肢的单侧运动控制缺陷，而非患侧下肢被假定为可代偿患侧下肢的功能障碍，且几乎没有或不存在缺陷。虽然非患侧下肢的肌电图（EMG）模式明显改变，但非患侧下肢如何发挥代偿作用仍有待确定。

方法

记录了60例慢性偏瘫患者（年龄：60.9岁，标准差=12.6岁，女性21例，右侧偏瘫28例，中风后时间：4.5年，标准差3.9年）的运动学数据，这些患者被分为三个基于速度的组，以及20例年龄相仿的健康个体（年龄：65.1岁，标准差=10.4岁，女性15例）。所有人都在装有仪器的分体式跑步机上以自己选择的速度行走，对照组也以与偏瘫患者相同的较慢速度行走。我们确定了在步态周期站立期的四个预定义区域中，非患侧EMG活动相对于健康对照受试者的幅度和时间差异。

结果

非患侧下肢许多肌肉的EMG活动积分和EMG时间不同。识别出的多种代偿模式包括：当肌肉在对照组中通常活跃时EMG输出增加，以及新出现的代偿性EMG模式，这些模式似乎提供了更大的推进力或支撑力，且几乎没有运动表现受损的证据。

解读

大多数新的代偿是由于患侧和非患侧下肢的运动学改变而实现的（即，由于非患侧足前进减少，站立初期跖屈肌活动提供了推进力），而其他代偿（单腿站立后期膝关节伸肌和站立后期腘绳肌活动）似乎是增加推进力的可用机制。

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