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穿戴式外骨骼在地面行走过程中选择的控制模式会影响慢性不完全性脊髓损伤成年人的肌肉协同作用。

Wearable exoskeleton control modes selected during overground walking affect muscle synergies in adults with a chronic incomplete spinal cord injury.

机构信息

School of Rehabilitation, Faculty of Medicine, Université de Montréal, Montreal, QC, Canada.

Pathokinesiology Laboratory, Center for Interdisciplinary Research in Rehabilitation of Greater Montreal (CRIR), Institut universitaire sur la readaptation en deficience physique de Montreal, CIUSSS Centre-Sud-de-l'Ile-de-Montréal, Montreal, QC, Canada.

出版信息

Spinal Cord Ser Cases. 2020 Apr 24;6(1):26. doi: 10.1038/s41394-020-0269-6.

DOI:10.1038/s41394-020-0269-6
PMID:32332703
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7182571/
Abstract

STUDY DESIGN

Case series.

BACKGROUND

Changes in the number of muscle synergies (MSs) and in the weighting of muscles composing each MS are typically altered following an incomplete spinal cord injury (iSCI). Wearable robotic exoskeletons (WRE) represent a promising rehabilitation option, though the effects of various WRE control modes on MSs still remain unknown.

OBJECTIVE

This case series characterizes how WRE control modes affect the number of MSs and the weighting of muscles composing each MS in individuals with iSCI.

SETTING

Pathokinesioly laboratory of a rehabilitation research center.

METHODS

Three participants with a chronic iSCI walked at a self-selected comfortable speed without and with a WRE set in two trajectory-controlled (Total Assistance, TOT; Assistance-as-Needed, ADAPT) and three non-trajectory controlled modes (High Assistance, HASSIST; High Resistance, HRESIST; NEUTRAL). Surface EMG of eight lower extremity (L/E) muscles was recorded and used to extract MSs using a nonnegative matrix factorization algorithm. Cosine similarity and weighting relative differences characterized similarities in MSs between individuals with iSCI and able-bodied controls.

RESULTS

The mode providing movement assistance within a self-selected L/E trajectory (HASSIST) best replicated MSs in able-bodied controls during overground walking. MSs extracted with the trajectory-controlled modes differed to the greatest extent from able-bodied group MSs.

CONCLUSIONS

Most WRE control modes did not replicate the motor control required for typical L/E muscle coordination during stereotypical overground walking. These results highlight the need to gain a better understanding of the effects of various control modes on L/E motor control for rehabilitation professionals to incorporate research evidence when selecting WRE control mode(s) during WRE locomotor interventions.

摘要

研究设计

病例系列。

背景

不完全性脊髓损伤(iSCI)后,肌肉协同作用(MS)的数量和构成每个 MS 的肌肉权重通常会发生变化。可穿戴式机器人外骨骼(WRE)代表了一种有前途的康复选择,但各种 WRE 控制模式对 MS 的影响仍不清楚。

目的

本病例系列研究了 WRE 控制模式如何影响 iSCI 个体的 MS 数量和构成每个 MS 的肌肉权重。

设置

康复研究中心的病理运动学实验室。

方法

3 名慢性 iSCI 参与者以自我选择的舒适速度行走,不使用和使用 WRE 设置在两种轨迹控制(Total Assistance,TOT;Assistance-as-Needed,ADAPT)和三种非轨迹控制模式(High Assistance,HASSIST;High Resistance,HRESIST;NEUTRAL)下。记录 8 条下肢(L/E)肌肉的表面肌电图,并使用非负矩阵分解算法提取 MS。余弦相似性和权重相对差异用于描述 iSCI 个体和健全对照组之间 MS 的相似性。

结果

在自我选择的 L/E 轨迹内提供运动辅助的模式(HASSIST)在地面行走时最能复制健全对照组的 MS。使用轨迹控制模式提取的 MS 与健全组 MS 的差异最大。

结论

大多数 WRE 控制模式无法复制典型地面行走中 L/E 肌肉协调所需的运动控制。这些结果强调了康复专业人员在选择 WRE 控制模式时,需要更好地了解各种控制模式对 L/E 运动控制的影响,以便将研究证据纳入 WRE 运动干预中。