评估在地面行走过程中向单侧偏瘫患者提供综合动觉和触觉线索的效果。

Evaluating the effects of delivering integrated kinesthetic and tactile cues to individuals with unilateral hemiparetic stroke during overground walking.

机构信息

School of Integrated Technology, Gwangju Institute of Science and Technology, 123 Cheomdangwagi-ro, Buk-gu, Gwangju, 61005, Republic of Korea.

Department of Rehabilitation Medicine, Gyeongsang National University School of Medicine, Gyeongsang National University Hospital, Jinju, 52727, Republic of Korea.

出版信息

J Neuroeng Rehabil. 2018 Apr 16;15(1):33. doi: 10.1186/s12984-018-0372-0.

DOI:10.1186/s12984-018-0372-0

PMID:29661237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5902868/

Abstract

BACKGROUND

Integration of kinesthetic and tactile cues for application to post-stroke gait rehabilitation is a novel concept which needs to be explored. The combined provision of haptic cues may result in collective improvement of gait parameters such as symmetry, balance and muscle activation patterns. Our proposed integrated cue system can offer a cost-effective and voluntary gait training experience for rehabilitation of subjects with unilateral hemiparetic stroke.

METHODS

Ten post-stroke ambulatory subjects participated in a 10 m walking trial while utilizing the haptic cues (either alone or integrated application), at their preferred and increased gait speeds. In the system a haptic cane device (HCD) provided kinesthetic perception and a vibrotactile feedback device (VFD) provided tactile cue on the paretic leg for gait modification. Balance, gait symmetry and muscle activity were analyzed to identify the benefits of utilizing the proposed system.

RESULTS

When using kinesthetic cues, either alone or integrated with a tactile cue, an increase in the percentage of non-paretic peak activity in the paretic muscles was observed at the preferred gait speed (vastus medialis obliquus: p < 0.001, partial eta squared (η) = 0.954; semitendinosus p < 0.001, partial η = 0.793) and increased gait speeds (vastus medialis obliquus: p < 0.001, partial η = 0.881; semitendinosus p = 0.028, partial η = 0.399). While using HCD and VFD (individual and integrated applications), subjects could walk at their preferred and increased gait speeds without disrupting trunk balance in the mediolateral direction. The temporal stance symmetry ratio was improved when using tactile cues, either alone or integrated with a kinesthetic cue, at their preferred gait speed (p < 0.001, partial η = 0.702).

CONCLUSIONS

When combining haptic cues, the subjects walked at their preferred gait speed with increased temporal stance symmetry and paretic muscle activity affecting their balance. Similar improvements were observed at higher gait speeds. The efficacy of the proposed system is influenced by gait speed. Improvements were observed at a 20% increased gait speed, whereas, a plateau effect was observed at a 40% increased gait speed. These results imply that integration of haptic cues may benefit post-stroke gait rehabilitation by inducing simultaneous improvements in gait symmetry and muscle activity.

摘要

背景

将动觉和触觉线索整合应用于卒中后步态康复是一个新概念，需要进一步探索。触觉线索的联合提供可能会导致步态参数的集体改善，如对称性、平衡和肌肉激活模式。我们提出的综合线索系统可以为单侧偏瘫患者的康复提供具有成本效益和自愿性的步态训练体验。

方法

10 名卒中后能行走的受试者在以他们喜欢的和增加的步行速度行走 10 米时，使用触觉线索（单独使用或联合使用）。在该系统中，触觉拐杖设备（HCD）提供动觉感知，振动触觉反馈设备（VFD）为患侧腿提供触觉提示，以改变步态。分析平衡、步态对称性和肌肉活动，以确定使用拟议系统的益处。

结果

当使用动觉线索时，无论是单独使用还是与触觉线索联合使用，在喜欢的步行速度时，患侧肌肉的非患侧峰值活动百分比都有所增加（股直肌：p < 0.001，偏η²=0.954；半腱肌：p < 0.001，偏η²=0.793）和增加的步行速度（股直肌：p < 0.001，偏η²=0.881；半腱肌：p=0.028，偏η²=0.399）。当使用 HCD 和 VFD（单独和联合应用）时，受试者可以以他们喜欢的和增加的步行速度行走，而不会破坏横向平衡。当使用触觉线索时，无论是单独使用还是与动觉线索联合使用，在喜欢的步行速度时，时间站立对称性比值都有所提高（p < 0.001，偏η²=0.702）。

结论

当联合使用触觉线索时，受试者以他们喜欢的步行速度行走，同时增加时间站立对称性和患侧肌肉活动，影响平衡。在较高的步行速度下也观察到类似的改善。该系统的疗效受步行速度的影响。在增加 20%的步行速度时观察到改善，而在增加 40%的步行速度时观察到平台效应。这些结果表明，触觉线索的整合可以通过同时改善步态对称性和肌肉活动来促进卒中后步态康复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7a0/5902868/74616a0e4902/12984_2018_372_Fig1_HTML.jpg

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评估在地面行走过程中向单侧偏瘫患者提供综合动觉和触觉线索的效果。

Evaluating the effects of delivering integrated kinesthetic and tactile cues to individuals with unilateral hemiparetic stroke during overground walking.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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