Immediate Effect of Restricted Knee Extension on Ground Reaction Force and Trunk Acceleration during Walking.

IF 1.5 Q3 REHABILITATION Rehabilitation Research and Practice Pub Date : 2021-07-08 eCollection Date: 2021-01-01 DOI:10.1155/2021/8833221
Hiroshi Osaka, Daisuke Fujita, Kenichi Kobara, Tadanobu Suehiro
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Abstract

Gait parameters calculated from trunk acceleration reflect the features of gait; however, they cannot evaluate the gait pattern corresponding to the gait cycle. This study is aimed at investigating the differences in gait parameters calculated from trunk acceleration during gait corresponding to the gait cycle in healthy subjects with restricted knee extension. Participants included eight healthy volunteers who walked normally (NW) and with knee orthosis that restricted knee extension (ER). The ground reaction force (GRF), joint angles, and trunk acceleration during walking were measured using four force plates, a three-dimensional motion analysis system, and an inertial measurement unit. The peak GRF of the vertical components, joint ranges of motion, and moments of force were analyzed. The root mean square (RMS) and amplitude peak ratio (AR) of autocorrelation function were calculated from the trunk acceleration waveform. The first peak GRF and peak ankle dorsiflexion angles significantly increased during ER. The peak hip extension, knee flexion, knee extension angles, and the peak moment of knee extension significantly decreased during ER compared to that during NW. The acceleration AR significantly decreased during ER compared to that during NW. There was no significant difference in the RMS between the two conditions. The acceleration AR may show the temporal postural structure with restricted knee extension from the terminal stance phase for the ipsilateral limb to the initial stance phase for the contralateral limb. These results suggest that novel metrics for accelerometry gait analysis can reveal gait abnormalities, with restricted knee extension corresponding to the gait cycle.

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限制膝关节伸展对行走时地面反作用力和躯干加速度的直接影响
根据躯干加速度计算的步态参数能反映步态的特征,但不能评估与步态周期相对应的步态模式。本研究旨在调查膝关节伸展受限的健康受试者在步态周期中根据躯干加速度计算的步态参数的差异。研究对象包括 8 名正常行走(NW)和使用限制膝关节伸展的膝关节矫形器(ER)的健康志愿者。使用四块测力板、三维运动分析系统和惯性测量单元测量了行走时的地面反作用力(GRF)、关节角度和躯干加速度。对垂直分量的峰值地面反作用力、关节运动范围和力矩进行了分析。根据躯干加速度波形计算了自相关函数的均方根(RMS)和振幅峰值比(AR)。在 ER 期间,GRF 的第一个峰值和踝关节背屈角度的峰值明显增加。髋关节伸展、膝关节屈曲、膝关节伸展角度峰值和膝关节伸展力矩峰值在 ER 期间比在 NW 期间明显下降。加速度 AR 在 ER 期间比在 NW 期间明显下降。两种情况下的有效值没有明显差异。加速度 AR 可显示同侧肢体在结束站立阶段到对侧肢体在初始站立阶段伸膝受限的时间姿势结构。这些结果表明,加速度步态分析的新指标可以揭示步态异常,膝关节伸展受限与步态周期相对应。
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来源期刊
CiteScore
3.80
自引率
0.00%
发文量
16
审稿时长
19 weeks
期刊介绍: Rehabilitation Research and Practice is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies in all areas of physical medicine and rehabilitation. The journal focuses on improving and restoring functional ability and quality of life to those with physical impairments or disabilities. In addition, articles looking at techniques to assess and study disabling conditions will be considered.
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