机器人髋关节外骨骼在门诊中风康复治疗中的安全性和有效性。

IF 5.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL
Rebecca Macaluso, Matt Giffhorn, Sara Prokup, Brice Cleland, Jusuk Lee, Bokman Lim, Minhyung Lee, Hwang-Jae Lee, Sangeetha Madhavan, Arun Jayaraman
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引用次数: 0

摘要

研究目的本研究的目的是分析韩国三星电子有限公司设计的步态增强和激励系统-髋关节(GEMS-H)机器人髋关节外骨骼在门诊康复环境中仅在辅助模式下对中风后人群使用的安全性和有效性:在 COVID-19 大流行期间,41 名平均年龄 60 岁、平均中风潜伏期 6.5 年的参与者完成了这项前瞻性、单臂、干预性纵向研究。对传统的门诊临床环境进行了重大调整,以遵守组织机构的物理距离政策以及美国疾病控制中心的指导方针。所有参与者都在 6-8 周内接受了 18 次 GEMS-H 辅助模式步态训练。在基线、中点(9 次训练后)、后期(18 次训练后)和 1 个月随访这四个时间点评估了基于表现和自我报告的临床结果。在整个研究过程中,还使用踝戴式运动计步器收集每日步数。此外,还使用经颅磁刺激法测量了基线和后期双侧下肢 4 块肌肉的皮质运动兴奋性:结果:训练计划结束时,主要结果--步行速度提高了 0.13 米/秒(p 结论:GEMS 系统的步态训练效果显著:使用 GEMS-H 外骨骼进行步态训练可显著提高慢性中风患者的行走速度、行走耐力和平衡能力。日常活动也有所改善,这体现在每日步数的增加上。此外,皮质运动神经兴奋性的变化表明,使用该装置进行训练可能有助于纠正中风后常见的大脑半球间失衡:本研究已在 ClinicalTrials.gov (NCT04285060) 注册。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Safety & efficacy of a robotic hip exoskeleton on outpatient stroke rehabilitation.

Objective: The objective of this study was to analyze the safety and efficacy of using a robotic hip exoskeleton designed by Samsung Electronics Co., Ltd., Korea, called the Gait Enhancing and Motivating System-Hip (GEMS-H), in assistance mode only with the poststroke population in an outpatient-rehabilitation setting.

Methods: Forty-one participants with an average age of 60 and average stroke latency of 6.5 years completed this prospective, single arm, interventional, longitudinal study during the COVID-19 pandemic. Significant modifications to the traditional outpatient clinical environment were made to adhere to organizational physical distancing policies as well as guidelines from the Centers for Disease Control. All participants received gait training with the GEMS-H in assistance mode for 18 training sessions over the course of 6-8 weeks. Performance-based and self-reported clinical outcomes were assessed at four time points: baseline, midpoint (after 9 training sessions), post (after 18 training sessions), and 1-month follow up. Daily step count was also collected throughout the duration of the study using an ankle-worn actigraphy device. Additionally, corticomotor excitability was measured at baseline and post for 4 bilateral lower limb muscles using transcranial magnetic stimulation.

Results: By the end of the training program, the primary outcome, walking speed, improved by 0.13 m/s (p < 0.001). Secondary outcomes of walking endurance, balance, and functional gait also improved as measured by the 6-Minute Walk Test (47 m, p < 0.001), Berg Balance Scale (2.93 points, p < 0.001), and Functional Gait Assessment (1.80 points, p < 0.001). Daily step count significantly improved with and average increase of 1,750 steps per day (p < 0.001). There was a 35% increase in detectable lower limb motor evoked potentials and a significant decrease in the active motor threshold in the medial gastrocnemius (-5.7, p < 0.05) after training with the device.

Conclusions: Gait training with the GEMS-H exoskeleton showed significant improvements in walking speed, walking endurance, and balance in persons with chronic stroke. Day-to-day activity also improved as evidenced by increased daily step count. Additionally, corticomotor excitability changes suggest that training with this device may help correct interhemispheric imbalance typically seen after stroke.

Trial registration: This study is registered with ClinicalTrials.gov (NCT04285060).

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来源期刊
Journal of NeuroEngineering and Rehabilitation
Journal of NeuroEngineering and Rehabilitation 工程技术-工程:生物医学
CiteScore
9.60
自引率
3.90%
发文量
122
审稿时长
24 months
期刊介绍: Journal of NeuroEngineering and Rehabilitation considers manuscripts on all aspects of research that result from cross-fertilization of the fields of neuroscience, biomedical engineering, and physical medicine & rehabilitation.
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