Tongue-controlled robotic rehabilitation: A feasibility study in people with stroke.

Sarah Ostadabbas, Stephen N Housley, Nordine Sebkhi, Kimberly Richards, David Wu, Zhenxuan Zhang, Maria Garcia Rodriguez, Lindsey Warthen, Crystal Yarbrough, Samir Belagaje, Andrew J Butler, Maysam Ghovanloo
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引用次数: 12

Abstract

Stroke survivors with severe upper limb (UL) impairment face years of therapy to recover function. Robot-assisted therapy (RT) is increasingly used in the field for goal-oriented rehabilitation as a means to improve function in ULs. To be used effectively for wrist and hand therapy, the current RT systems require the patient to have a minimal active range of movement in the UL, and those that do not have active voluntary movement cannot use these systems. We have overcome this limitation by harnessing tongue motion to allow patients to control a robot using synchronous tongue and hand movement. This novel RT device combines a commercially available UL exoskeleton, the Hand Mentor, and our custom-designed Tongue Drive System as its controller. We conducted a proof-of-concept study on six nondisabled participants to evaluate the system usability and a case series on three participants with movement limitations from poststroke hemiparesis. Data from two stroke survivors indicate that for patients with chronic, moderate UL impairment following stroke, a 15-session training regimen resulted in modest decreases in impairment, with functional improvement and improved quality of life. The improvement met the standard of minimal clinically important difference for activities of daily living, mobility, and strength assessments.

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舌控机器人康复:对中风患者的可行性研究。
患有严重上肢损伤的中风幸存者需要数年的治疗才能恢复功能。机器人辅助治疗(RT)作为一种改善ULs功能的手段,越来越多地应用于目标导向康复领域。为了有效地用于手腕和手部治疗,目前的RT系统要求患者在UL中具有最小的活动范围,而那些没有主动自主运动的患者不能使用这些系统。我们已经克服了这一限制,利用舌头的运动,让病人通过舌头和手的同步运动来控制机器人。这种新颖的RT设备结合了市售的UL外骨骼,Hand Mentor和我们定制的舌头驱动系统作为控制器。我们对六名非残疾参与者进行了概念验证研究,以评估系统的可用性,并对三名中风后偏瘫患者进行了一系列病例研究。来自两名中风幸存者的数据表明,对于中风后慢性中度UL损伤的患者,15次训练方案导致损伤适度减少,功能改善和生活质量提高。改善符合日常生活活动、活动能力和力量评估的最小临床重要差异标准。
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