康复
物理医学与康复
冲程(发动机)
运动学
物理疗法
外骨骼
脑-机接口
康复机器人
机器人
慢性中风
心理学
计算机科学
人工智能
医学
工程类
物理
精神科
脑电图
机械工程
经典力学
作者
Jennifer L. Sullivan,Nikunj Bhagat,Nuray Yozbatıran,Ruta P. Paranjape,Colin Losey,Robert G. Grossman,José L. Contreras-Vidal,Gerard E. Francisco,Marcia K. O’Malley
标识
DOI:10.1109/icorr.2017.8009233
摘要
This paper presents the preliminary findings of a multi-year clinical study evaluating the effectiveness of adding a brain-machine interface (BMI) to the MAHI-Exo II, a robotic upper limb exoskeleton, for elbow flexion/extension rehabilitation in chronic stroke survivors. The BMI was used to trigger robot motion when movement intention was detected from subjects' neural signals, thus requiring that subjects be mentally engaged during robotic therapy. The first six subjects to complete the program have shown improvements in both Fugl-Meyer Upper-Extremity scores as well as in kinematic movement quality measures that relate to movement planning, coordination, and control. These results are encouraging and suggest that increasing subject engagement during therapy through the addition of an intent-detecting BMI enhances the effectiveness of standard robotic rehabilitation.
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