Design and Characterization of a Robotic Device for the Assessment of Hand Proprioceptive, Motor, and Sensorimotor Impairments

Monika Zbytniewska, Mike D. Rinderknecht, O. Lambercy, Marco Barnobi, Joke Raats, I. Lamers, P. Feys, J. Liepert, R. Gassert
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引用次数: 11

Abstract

Hand function is often impaired after neurological injuries such as stroke. In order to design patient-specific rehabilitation, it is essential to quantitatively assess those deficits. Current clinical scores cannot provide the required level of detail, and most assessment devices have been developed for the proximal joints of the upper limb. This paper presents a new robotic platform for the assessment of proprioceptive, motor, and sensorimotor hand impairments. A detailed technical evaluation demonstrated the capabilities to render different haptic environments required for a comprehensive assessment battery, and showed that the device is suitable for human interaction due to its ergonomic design. A preliminary study on proprioceptive assessment using a gauge position matching task with one healthy, one stroke, and one multiple sclerosis subject showed that the robotic system is able to rapidly and sensitively quantify proprioceptive deficits, and has the potential to be integrated into the clinical settings.
用于评估手部本体感觉、运动和感觉运动损伤的机器人装置的设计和表征
中风等神经损伤后,手的功能往往受损。为了设计针对患者的康复方案,有必要对这些缺陷进行定量评估。目前的临床评分不能提供所需的详细程度,而且大多数评估设备都是针对上肢近端关节开发的。本文提出了一种新的机器人平台,用于评估本体感觉、运动和感觉运动手部损伤。一项详细的技术评估展示了综合评估电池所需的不同触觉环境的能力,并表明该设备因其符合人体工程学的设计而适合人类互动。一项针对健康患者、中风患者和多发性硬化症患者的体位匹配任务的初步研究表明,机器人系统能够快速、敏感地量化本体感觉缺陷,并有可能融入临床环境。
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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