儿童全手外骨骼,用于任务导向训练中的抓取辅助

Tobias L. Bützer, Jan Dittli, Jan Lieber, Hubertus J. A. van Hedel, A. Meyer-Heim, O. Lambercy, R. Gassert
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引用次数: 24

摘要

由于脑瘫、外伤性脑损伤或小儿中风而导致手部运动障碍的儿童在其独立性、发育和生活质量方面受到很大影响。治疗通常包括任务导向的职业治疗培训。虽然可以通过技术提高手部治疗的剂量和强度,但这些方法大多局限于用于非任务导向训练的大型固定式机器人设备,或用于轻度损伤儿童的被动可穿戴设备。在这里,我们提出PEXO,一个完全可穿戴的驱动儿童手外骨骼,以满足儿童(6至12岁)的特殊需求,手部功能严重受损。通过三个自由度,PEXO提供了执行功能性任务所需的各种抓取类型的帮助。它重量轻,防水,并且与用户安全交互。根据文献和临床医生的讨论,它满足机械要求,如力、快速闭合运动和电池寿命。美观的外观,人性化的设计,直观的控制与前臂肌肉活动的视觉反馈,应该保持用户在诊所或在家里训练的动力。一项针对6岁中风儿童的试点测试表明,PEXO可以帮助抓取重达0.5公斤的各种物体。这些都是有希望的初步结果,为患有神经运动障碍的儿童提供了手部外骨骼。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PEXO - A Pediatric Whole Hand Exoskeleton for Grasping Assistance in Task-Oriented Training
Children with hand motor impairment due to cerebral palsy, traumatic brain injury, or pediatric stroke are considerably affected in their independence, development, and quality of life. Treatment conventionally includes task-oriented training in occupational therapy. While dose and intensity of hand therapy can be promoted through technology, these approaches are mostly limited to large stationary robotic devices for non-task-oriented training, or passive wearable devices for children with mild impairments. Here we present PEXO, a fully wearable actuated pediatric hand exoskeleton to cover the special needs of children (6 to 12 years of age) with strong impairments in hand function. Through three degrees of freedom, PEXO provides assistance in various grasp types needed for the execution of functional tasks. It is lightweight, water proof, and inherently interacts safely with the user. It meets mechanical requirements such as force, fast closing movement, and battery lifetime derived from literature and discussions with clinicians. Appealing appearance, user-friendly design, and intuitive control with visual feedback of forearm muscle activity should keep the user motivated during training in the clinic or at home. A pilot test with a 6-years old child with stroke showed that PEXO can provide assistance in grasping various objects weighing up to 0.5 kg. These are promising first results on the way to make hand exoskeletons accessible for children with neuromotor disorders.
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