Telerehabilitation using a 2-D planar arm rehabilitation robot for hemiparetic stroke: a feasibility study of clinic-to-home exergaming therapy.

IF 5.2 2区医学 Q1 ENGINEERING, BIOMEDICAL

Journal of NeuroEngineering and Rehabilitation Pub Date : 2024-11-26 DOI:10.1186/s12984-024-01496-6

Gabriel Aguirre-Ollinger, Karen Sui Geok Chua, Poo Lee Ong, Christopher Wee Keong Kuah, Tegan Kate Plunkett, Chwee Yin Ng, Lay Wai Khin, Kim Huat Goh, Wei Binh Chong, Jaclyn Ai Mei Low, Malaika Mushtaq, Tengiz Samkharadze, Simone Kager, Hsiao-Ju Cheng, Asif Hussain

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引用次数: 0

Abstract

Background: We evaluated the feasibility, safety, and efficacy of a 2D-planar robot for minimally supervised home-based upper-limb therapy for post-stroke hemiparesis.

Methods: The H-Man, end effector robot, combined with web-based software application for remote tele-monitoring were evaluated at homes of participants. Inclusion criteria were: strokes > 28 days, Fugl-Meyer Motor Assessment (FMA) > 10-60/66, presence of a carer and absence of medical contraindications. Participants performed self-directed, minimally supervised robotics-assisted therapy (RAT) at home for 30 consecutive days, after 2 therapist-supervised clinic on-boarding sessions. Web-based compliance measures were: accessed sessions of > 20 min/day, training minutes/day and active training hours/30 days. Clinical outcomes at weeks 0, 5 (post-training), 12 and 24 (follow-up) consisted of FMA, Action Research Arm Test (ARAT) and WHO-Stroke Specific Quality of Life (SSQOL). To estimate immediate economic benefits of the home-based robotic therapy, we performed cost-effectiveness analysis (CEA), followed by budget impact analysis (BIA).

Results: Altogether, all 12 participants completed Home-RAT without adverse events; 9 (75.0%) were males, mean (SD) age, 59.4 years (9.5), median (IQR) stroke duration 38.6 weeks (25.4, 79.6) baseline FMA (0-66) 42.1 ± 13.2, ARAT (0-57) 25.4 ± 19.5, SSQOL (0-245) 185.3 ± 32.8. At week 5 follow-up, mean (SD) accessed days were 26.3 days ± 6.4, active training hours of 35.3 h ± 14.7/30 days, or ~ 6 days/week and 77 training minutes ± 20.9/day were observed. Significant gains were observed from baseline across time; ΔFMA 2.4 at week 5 (FMA 44.5, CI 95% 39.7-49.3, p < 0.05) and ΔFMA 3.7 at week 24 (FMA 45.8, CI 95% 40.5-51, p < 0.05); ΔARAT 2.6 at week 5 (ARAT 28.0, CI 95% 19.3-36.7, p < 0.05), and ΔARAT 4.8 at week 24 (ARAT 30.2, CI 95% 21.2-39.1, p < 0.05). At week 5 follow-up, 91% of participants rated their overall experience as satisfied or very satisfied. Incremental CEA observed savings of -S$144/per cure over 24 weeks, BIA-potentially 12% impact reduction over five years.

Conclusions: This study demonstrates the feasibility, acceptability, safety, clinical efficacy, and cost-effectiveness of a home-based, web-enabled telemonitored carer-supervised robotics-aided therapy.

Trial registration: NCT05212181 ( https://clinicaltrials.gov ).

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使用二维平面手臂康复机器人对中风偏瘫患者进行远程康复治疗：从诊所到家庭的电子游戏疗法可行性研究。

背景：我们评估了二维平面机器人用于中风后偏瘫家庭治疗的可行性、安全性和有效性：我们评估了二维平面机器人用于中风后偏瘫家庭治疗的可行性、安全性和有效性：方法：在参与者家中对 H-Man 末端效应器机器人和基于网络的远程监控软件应用程序进行了评估。纳入标准为：中风时间大于 28 天，福格-迈耶运动评估（FMA）大于 10-60/66，有照顾者且无医疗禁忌症。在经过 2 次治疗师监督的诊所入门课程后，参与者在家中进行了连续 30 天的自主、最少监督的机器人辅助治疗 (RAT)。基于网络的依从性测量指标包括：访问疗程大于 20 分钟/天、训练分钟/天和积极训练小时/30 天。第 0 周、第 5 周（培训后）、第 12 周和第 24 周（随访）的临床结果包括 FMA、行动研究臂测试 (ARAT) 和世界卫生组织卒中特定生活质量 (SSQOL)。为了估算家庭机器人疗法的直接经济效益，我们进行了成本效益分析（CEA），随后又进行了预算影响分析（BIA）：所有 12 名参与者均完成了 Home-RAT，未发生不良事件；其中 9 人（75.0%）为男性，平均（标清）年龄为 59.4 岁（9.5），中位（IQR）卒中持续时间为 38.6 周（25.4，79.6），基线 FMA（0-66）为 42.1 ± 13.2，ARAT（0-57）为 25.4 ± 19.5，SSQOL（0-245）为 185.3 ± 32.8。在第 5 周的随访中，平均（标清）访问天数为 26.3 天（±6.4），积极训练时间为 35.3 小时（±14.7）/30 天，即每周约 6 天，训练时间为 77 分钟（±20.9）/天。与基线相比，各时间段均有显著提高；第 5 周时，ΔFMA 为 2.4（FMA 为 44.5，CI 95% 为 39.7-49.3，p 结论：本研究证明了基于家庭、网络远程监控、护理人员监督的机器人辅助疗法的可行性、可接受性、安全性、临床疗效和成本效益：NCT05212181 ( https://clinicaltrials.gov ).

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来源期刊

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.