Chou Chih-Hong, Wang Tong, Sun Xiaopei, Niu Chuanxin M, Hao Manzhao, Xie Qing, Lan Ning
Laboratory of Neurorehabilitaiton Engineering, School of Biomedical Engineering, Shanghai Jiao Tong University, China.
Department of Rehabilitation Medicine, Ruijin Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai, China.
Med Eng Phys. 2020 Oct;84:174-183. doi: 10.1016/j.medengphy.2020.09.001. Epub 2020 Sep 5.
This paper describes the design and test of an automated functional electrical stimulation (FES) system for poststroke rehabilitation training. The aim of automated FES is to synchronize electrically induced movements to assist residual movements of patients.
In the design of the FES system, an accelerometry module detected movement initiation and movement performed by post-stroke patients. The desired movement was displayed in visual game module. Synergy-based FES patterns were formulated using a normal pattern of muscle synergies from a healthy subject. Experiment 1 evaluated how different levels of trigger threshold or timing affected the variability of compound movements for forward reaching (FR) and lateral reaching (LR). Experiment 2 explored the effect of FES duration on compound movements.
Synchronizing FES-assisted movements with residual voluntary movements produced more consistent compound movements. Matching the duration of synergy-based FES to that of patients could assist slower movements of patients with reduced RMS errors.
Evidence indicated that synchronization and matching duration with residual voluntary movements of patients could improve the consistency of FES assisted movements. Automated FES training can reduce the burden of therapists to monitor the training process, which may encourage patients to complete the training.
本文描述了一种用于中风后康复训练的自动功能性电刺激(FES)系统的设计与测试。自动FES的目的是使电诱导运动同步,以辅助患者的残余运动。
在FES系统的设计中,一个加速度测量模块检测中风后患者的运动起始和运动情况。期望的运动显示在视觉游戏模块中。基于健康受试者正常肌肉协同模式制定基于协同作用的FES模式。实验1评估了不同水平的触发阈值或时机如何影响前伸(FR)和侧伸(LR)复合运动的变异性。实验2探讨了FES持续时间对复合运动的影响。
将FES辅助运动与残余自主运动同步可产生更一致的复合运动。使基于协同作用的FES持续时间与患者的持续时间相匹配,可以辅助运动较慢的患者,减少均方根误差。
有证据表明,与患者的残余自主运动同步并匹配持续时间可以提高FES辅助运动的一致性。自动FES训练可以减轻治疗师监测训练过程的负担,这可能会鼓励患者完成训练。
