肌电驱动神经肌肉刺激循环系统对中风幸存者下肢的影响

Cheuk-Yan Au, Prabhav Mehra, Kenry W. C. Leung, R. Tong
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摘要

本文介绍了一种肌电图驱动的神经肌肉电刺激循环系统的设计。它利用来自积极参与中风幸存者的实时肌电图作为反馈控制来驱动康复循环系统。使用者利用肌电图电极记录的受影响一侧的肌肉活动来控制循环系统的速度。此外,适应性强的NMES刺激;也基于肌电图,以循环模式提供给各自的肌肉群,以改善肌肉协调。用于控制该系统的目标肌群为患侧腿的腘绳肌(HS)、胫骨前肌(TA)、股四头肌(QC)、腓肠肌外侧肌(GL)。使用该系统,慢性中风幸存者(n=10)以每周2-4次的频率进行20次30分钟的疗程。临床评估评分FMA_LE、BBS和6MWT分别在第一次治疗前和20次治疗结束后计算。使用该系统后,各考核分数均有显著提高;FMA_LE(P=0.0244)、BBS(P=0.0156)、6MWT(P=0.0112)和SI (P=0.0258)表明肌电驱动的NMES循环系统在肌肉力量和平衡方面为脑卒中幸存者提供了有效的康复。
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Effects of Electromyographically-driven Neuromuscular Stimulatio Cycling System on the Lower-Limb of Stroke Survivors
This paper describes the design of an Electromyographically(EMG)-driven Neuromuscular Electrical Stimulation (NMES) cycling system. It utilises real-time EMG from actively participating stroke survivors as feedback control to drive the cycling system for rehabilitation. The user controls the speed of the cycling system using muscle activities of the side affected recorded by EMG electrodes. Additionally, adaptable NMES stimulations; also EMG based, were provided in cyclic pattern to the respective muscle groups in order to improve muscle coordination. The targeted muscle groups used to control the system were the Hamstring (HS), Tibialis Anterior (TA), Quadriceps (QC), Gastrocnemius Lateralis (GL) of the leg on the affected side. Using the system, 20 30-minutes sessions were conducted with chronic stroke survivors (n=10) at frequency of 2–4 sessions per week. Clinical assessment scores, namely FMA_LE, BBS and 6MWT were calculated before the first session and after the completion of 20 sessions. All the assessment scores showed significant improvement after using the system; FMA_LE(P=0.0244), BBS(P=0.0156), 6MWT(P=0.0112), and SI (P=0.0258), showing that the EMG-driven NMES cycling system provides effective rehabilitation for stroke survivors in terms of muscle strength and balance.
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