Hybrid Functional Electrical Stimulation and Robotic Assistance for Wrist Motion Training After Stroke: Preliminary Results.

Lucille Cazenave, Aaron Yurkewich, Chiara Hohler, Thierry Keller, Carmen Krewer, Klaus Jahn, Sandra Hirche, Satoshi Endo, Etienne Burdet
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Abstract

This work presents preliminary results of a clinical study with sub-acute stroke patients using a hybrid system for wrist rehabilitation. The patients trained their wrist flexion/extension motion through a target tracking task, where electrical stimulation and robotic torque assisted them proportionally to their tracking error. Five sub-acute stroke patients have completed the training for 3 sessions on separate days. The preliminary results show hybrid assistance improves tracking performance and motion smoothness in most participants. In each session, patients' tracking performances before and after training were evaluated in unassisted tracking trials, without assistance. Their unassisted performance was compared across sessions and the results suggest that moderately to severely impaired patients might benefit more from hybrid training with our system than mildly impaired patients. Subjective assessments from all sessions show that the patients found the use of the device very comfortable and the training enjoyable. More data is being collected and future work will aim at verifying these trends.

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脑卒中后手腕运动训练的混合功能电刺激和机器人辅助:初步结果。
这项工作介绍了一项使用混合系统进行手腕康复的亚急性中风患者临床研究的初步结果。患者通过目标跟踪任务训练他们的手腕弯曲/伸展运动,其中电刺激和机器人扭矩根据他们的跟踪误差成比例地帮助他们。五名亚急性脑卒中患者在不同的日子里完成了三次训练。初步结果表明,混合辅助提高了大多数参与者的跟踪性能和运动平滑度。在每次训练中,在没有辅助的情况下,在无人辅助的跟踪试验中评估患者在训练前后的跟踪表现。对他们在不同训练中的自主表现进行了比较,结果表明,与轻度受损患者相比,中度至重度受损患者可能从我们系统的混合训练中受益更多。所有课程的主观评估显示,患者发现该设备的使用非常舒适,训练也很愉快。正在收集更多的数据,未来的工作将旨在核实这些趋势。
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Individualized Three-Dimensional Gait Pattern Generator for Lower Limbs Rehabilitation Robots. Individualized Training of Back Muscles Using Iterative Learning Control of a Compliant Balance Board. Influence of Robotic Therapy on Severe Stroke Patients. INSPIIRE - A Modular and Passive Exoskeleton to Investigate Human Walking and Balance. Instrumented Upper Limb Functional Assessment Using a Robotic Exoskeleton: Normative References Intervals.
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