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在健康个体接受基本运动训练后,可穿戴式机器人外骨骼如何影响通过10米步行测试和六分钟步行测试所测量的地面行走性能?

How does wearable robotic exoskeleton affect overground walking performance measured with the 10-m and six-minute walk tests after a basic locomotor training in healthy individuals?

作者信息

Gagnon Dany H, Cunha Jérémie Da, Boyer-Delestre Mael, Bosquet Laurent, Duclos Cyril

机构信息

École de réadaptation, Université de Montréal, QC, Canada; Laboratoire de pathokinésiologie, Centre de recherche Interdisciplinaire en réadaptation du grand Montréal, Institut de réadaptation Gingras-Lindsay-de-Montréal, CIUSSS Centre-Sud-de-l'Île-de-Montréal, Montréal, QC, Canada.

École de réadaptation, Université de Montréal, QC, Canada; Laboratoire de pathokinésiologie, Centre de recherche Interdisciplinaire en réadaptation du grand Montréal, Institut de réadaptation Gingras-Lindsay-de-Montréal, CIUSSS Centre-Sud-de-l'Île-de-Montréal, Montréal, QC, Canada; Laboratoire MOVE (EA6314), Faculté des sciences du sport, Université de Poitiers, Poitiers, France.

出版信息

Gait Posture. 2017 Oct;58:340-345. doi: 10.1016/j.gaitpost.2017.08.027. Epub 2017 Aug 26.

DOI:10.1016/j.gaitpost.2017.08.027
PMID:28865396
Abstract

It is still unknown to what extent overground walking with a WRE is equivalent to natural overground walking without a WRE. Hence, the interpretability of the 10-m (10MWT) and six-minute (6MWT) walk tests during overground walking with a WRE against reference values collected during natural overground walking without a WRE is challenging. This study aimed to 1) compare walking performance across three different overground walking conditions: natural walking without a WRE, walking with a WRE providing minimal assistance (active walking), and walking with a WRE proving complete assistance (passive walking) and 2) assess the association and the agreement between the 10MWT and the 6MWT during passive and active walking with a WRE. Seventeen healthy individuals who underwent basic locomotor training with a WRE performed the 10MWT (preferred and maximal speeds) and the 6MWT under the three conditions. For the 10MWT, the speed progressively and significantly decreased from natural walking without a WRE (preferred: 1.40±0.18m/s; maximal: 2.16±0.19m/s), to active walking with a WRE (preferred: 0.48±0.10m/s; maximal: 0.61±0.14m/s), and to passive walking with a WRE (preferred: 0.38±0.09m/s; maximal: 0.42±0.10m/s). For the 6MWT, total distances decreased from walking without a WRE (609±53.9m), to active walking with a WRE (196.6±42.6m), and to passive walking with a WRE (144.3±33.3m). The 10MWT and 6MWT provide distinct information and can't be used interchangeably to document speed only during active walking with the WRE. Speed and distance drastically decrease during active and, even more so, passive walking with the WRE in comparison to walking without a WRE. Selection of walking tests should depend on the level of assistance provided by the WRE.

摘要

使用步行康复设备(WRE)在地面行走在多大程度上等同于不使用WRE的自然地面行走仍是未知的。因此,在使用WRE进行地面行走时的10米步行试验(10MWT)和6分钟步行试验(6MWT)相对于在不使用WRE的自然地面行走时收集的参考值的可解释性具有挑战性。本研究旨在:1)比较三种不同地面行走条件下的步行表现:不使用WRE的自然行走、使用提供最小辅助的WRE行走(主动行走)以及使用提供完全辅助的WRE行走(被动行走);2)评估在使用WRE进行被动和主动行走期间10MWT与6MWT之间的关联和一致性。17名接受过使用WRE进行基本运动训练的健康个体在这三种条件下进行了10MWT(偏好速度和最大速度)和6MWT。对于10MWT,速度从不使用WRE的自然行走(偏好速度:1.40±0.18米/秒;最大速度:2.16±0.19米/秒)逐渐显著降低到使用WRE的主动行走(偏好速度:0.48±0.10米/秒;最大速度:0.61±0.14米/秒),再到使用WRE的被动行走(偏好速度:0.38±0.09米/秒;最大速度:0.42±0.10米/秒)。对于6MWT,总距离从不使用WRE的行走(609±53.9米)降低到使用WRE的主动行走(196.6±42.6米),再到使用WRE的被动行走(144.3±33.3米)。10MWT和6MWT提供不同的信息,不能仅在使用WRE进行主动行走时互换使用以记录速度。与不使用WRE的行走相比,在使用WRE进行主动行走时,甚至在被动行走时,速度和距离都大幅降低。步行试验的选择应取决于WRE提供的辅助水平。

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