A brain-robot interface for studying motor learning after stroke

Timm Meyer, Jan Peters, Doris Brtz, T. Zander, B. Scholkopf, S. Soekadar, M. Grosse-Wentrup
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引用次数: 22

Abstract

Despite intensive efforts, no significant benefit of rehabilitation robotics in post-stroke motor-recovery has yet been demonstrated in large-scale clinical trials. The present work is based on the premise that future advances in rehabilitation robotics require an enhanced understanding of the neural processes involved in motor learning after stroke. We present a system that combines a Barret WAM™seven degree-of-freedom robot arm with neurophysiological recordings for the purpose of studying post-stroke motor learning. We used this system to conduct a pilot study on motor learning during reaching movements with two stroke patients. Preliminary results indicate that pre-trial brain activity in ipsilesional sensorimotor areas may be a neural correlate of the current state of motor learning. These results are discussed in terms of their relevance for future rehabilitation strategies that combine rehabilitation robotics with real-time analyses of neuro-physiological recordings.
研究中风后运动学习的脑-机器人接口
尽管付出了巨大的努力,但在大规模的临床试验中,康复机器人在中风后运动恢复方面还没有显著的好处。目前的工作是基于这样一个前提,即康复机器人的未来发展需要加强对中风后运动学习所涉及的神经过程的理解。我们提出了一种系统,该系统结合了Barret WAM™七自由度机械臂和神经生理学记录,用于研究中风后的运动学习。我们使用这个系统对两名中风患者进行了一项接触运动时的运动学习的初步研究。初步结果表明,实验前同侧感觉运动区域的大脑活动可能是当前运动学习状态的神经关联。这些结果与未来康复策略的相关性进行了讨论,这些策略将康复机器人技术与神经生理记录的实时分析相结合。
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