Emerging trends in human upper extremity rehabilitation robot

Sk. Khairul Hasan, Subodh B. Bhujel, Gabrielle Sara Niemiec
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Abstract

Stroke is a leading cause of neurological disorders that result in physical disability, particularly among the elderly. Neurorehabilitation plays a crucial role in helping stroke patients recover from physical impairments and regain mobility. Physical therapy is one of the most effective forms of neurorehabilitation, but the growing number of patients requires a large workforce of trained therapists, which is currently insufficient. Robotic rehabilitation offers a promising alternative, capable of supplementing or even replacing human-assisted physical therapy through the use of rehabilitation robots. To design effective robotic devices for rehabilitation, a solid foundation of knowledge is essential. This article provides a comprehensive overview of the key elements needed to develop human upper extremity rehabilitation robots. It covers critical aspects such as upper extremity anatomy, joint range of motion, anthropometric parameters, disability assessment techniques, and robot-assisted training methods. Additionally, it reviews recent advancements in rehabilitation robots, including exoskeletons, end-effector-based robots, and planar robots. The article also evaluates existing upper extremity rehabilitation robots based on their mechanical design and functionality, identifies their limitations, and suggests future research directions for further improvement.

Abstract Image

人体上肢康复机器人的新趋势
中风是导致身体残疾的神经系统疾病的主要原因,尤其是在老年人中。神经康复在帮助脑卒中患者从肢体损伤中康复并恢复行动能力方面发挥着至关重要的作用。物理治疗是最有效的神经康复方式之一,但由于患者人数不断增加,需要大量训练有素的治疗师,而目前这方面的人才还很缺乏。机器人康复提供了一种前景广阔的替代方案,通过使用康复机器人,能够补充甚至取代人类辅助物理治疗。要设计出有效的康复机器人设备,扎实的知识基础必不可少。本文全面概述了开发人类上肢康复机器人所需的关键要素。它涵盖了上肢解剖、关节活动范围、人体测量参数、残疾评估技术和机器人辅助训练方法等关键方面。此外,文章还回顾了康复机器人的最新进展,包括外骨骼、基于末端执行器的机器人和平面机器人。文章还根据机械设计和功能评估了现有的上肢康复机器人,指出了它们的局限性,并提出了进一步改进的未来研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
8.40
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