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脊髓损伤患者使用膝踝足矫形器和机器人辅助步态(ReWalk)的步态能量效率和患者满意度

Energy Efficiency and Patient Satisfaction of Gait With Knee-Ankle-Foot Orthosis and Robot (ReWalk)-Assisted Gait in Patients With Spinal Cord Injury.

作者信息

Kwon Seung Hyun, Lee Bum Suk, Lee Hye Jin, Kim Eun Joo, Lee Jung Ah, Yang Sung Phil, Kim Tae Young, Pak Han Ram, Kim Hyun Ki, Kim Hae Young, Jung Joo Hwan, Oh Sang Wook

机构信息

Department of Rehabilitation Medicine, National Rehabilitation Center, Seoul, Korea.

Department of Clinical Research on Rehabilitation, National Rehabilitation Research Institute, Seoul, Korea.

出版信息

Ann Rehabil Med. 2020 Apr;44(2):131-141. doi: 10.5535/arm.2020.44.2.131. Epub 2020 Apr 29.

DOI:10.5535/arm.2020.44.2.131
PMID:32392652
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7214138/
Abstract

OBJECTIVE

To compare the energy efficiency of gait with knee-ankle-foot orthosis (KAFO) and robot-assisted gait and to develop a usability questionnaire to evaluate the satisfaction of walking devices in paraplegic patients with spinal cord injuries.

METHODS

Thirteen patients with complete paraplegia participated and 10 completed the evaluation. They were trained to walk with KAFO (KAFO-gait) or a ReWalk robot (ReWalk-gait) for 4 weeks (20 sessions). After a 2-week wash-out period, they switched walking devices and underwent 4 additional weeks of training. Two evaluations were performed (after 2 and 4 weeks) following the training periods for each walking device, using the 6-minute walking test (6MWT) and 30-minute walking test (30MWT). The spatiotemporal variables (walking distance, velocity, and cadence) and energy expenditure (heart rate, maximal heart rate, the physiologic cost index, oxygen consumption, metabolic equivalents, and energy efficiency) were evaluated duringthe 6MWT and 30MWT. A usability evaluation questionnaire for walking devices was developed based on the International Organization for Standardization/International Electrotechnical Commission guidelines through expert consultation.

RESULTS

The ReWalk-gait presented significant advantages in energy efficiency compared to KAFO-gait in the 6MWT and 30MWT; however, there were no differences in walking distance or speed in the 30MWT between ReWalk-gait and KAFOgait. The usability test demonstrated that ReWalk-gait was not superior to KAFO-gait in terms of safety, efficacy, efficiency, or patient satisfaction.

CONCLUSION

The robot (ReWalk) enabled patients with paraplegia to walk with lower energy consumption compared to KAFO, but the ReWalk-gait was not superior to KAFO-gaitin terms of patient satisfaction.

摘要

目的

比较使用膝踝足矫形器(KAFO)行走和机器人辅助行走的能量效率,并开发一份可用性调查问卷,以评估脊髓损伤截瘫患者对行走设备的满意度。

方法

13名完全性截瘫患者参与研究,其中10名完成了评估。他们接受了使用KAFO行走(KAFO步态)或ReWalk机器人行走(ReWalk步态)的训练,为期4周(共20节训练课)。经过2周的洗脱期后,他们更换行走设备,并接受额外4周的训练。在每种行走设备的训练期结束后(2周和4周后)进行两次评估,采用6分钟步行试验(6MWT)和30分钟步行试验(30MWT)。在6MWT和30MWT期间评估时空变量(步行距离、速度和步频)以及能量消耗(心率、最大心率、生理成本指数、耗氧量、代谢当量和能量效率)。基于国际标准化组织/国际电工委员会的指南,通过专家咨询开发了一份行走设备可用性评估问卷。

结果

在6MWT和30MWT中,ReWalk步态在能量效率方面比KAFO步态具有显著优势;然而,在30MWT中,ReWalk步态和KAFO步态之间的步行距离或速度没有差异。可用性测试表明,在安全性、有效性、效率或患者满意度方面,ReWalk步态并不优于KAFO步态。

结论

与KAFO相比,机器人(ReWalk)使截瘫患者能够以更低的能量消耗行走,但在患者满意度方面,ReWalk步态并不优于KAFO步态。

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