利用全手触觉渲染增强中风康复:新型上肢康复设备的开发和临床可用性评估。

IF 5.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL Journal of NeuroEngineering and Rehabilitation Pub Date : 2024-09-27 DOI:10.1186/s12984-024-01439-1
Raphael Rätz, François Conti, Irène Thaler, René M Müri, Laura Marchal-Crespo
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引用次数: 0

摘要

导言:目前,用于中风后上肢康复的机器人设备缺乏易用性和有效性。重要的是,目前大多数系统都无法提供与虚拟训练任务一致的体感信息。本文介绍了一种专为上肢康复设计的新型触觉机器人系统,重点是通过全面的触觉渲染来增强传感运动康复:我们开发了一种新型触觉康复设备,该设备具有独特的自由度组合,可以进行功能性伸手和抓握任务的虚拟训练,我们使用基于物理引擎的触觉渲染方法来渲染患者双手与虚拟有形物体之间的全手互动。为了评估系统的可行性,我们对七名患者和七名神经康复治疗师进行了临床混合方法可用性研究。我们采用标准化问卷收集定量数据,并对所有参与者进行了半结构化访谈,以深入了解他们对我们技术解决方案的可用性和实用性的看法:结果:该设备使用方便,可适应各种手型,无需大量设置。治疗师和患者对该系统的满意度很高,认为该系统有助于进行有意义的康复训练。参与者提供了非常积极的反馈,尤其强调了系统的自由度和触觉渲染能力。治疗师对使用我们的系统学习到的感知运动技能在日常生活活动中的迁移能力表示有信心,但还需要进一步的调查来证实这一点:结论:新型触觉机器人系统能有效支持中风后上肢康复,提供高保真触觉反馈和引人入胜的训练任务。该系统的临床可用性,以及治疗师和患者的积极反馈,都凸显了它在加强机器人神经康复方面的潜力。
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Enhancing stroke rehabilitation with whole-hand haptic rendering: development and clinical usability evaluation of a novel upper-limb rehabilitation device.

Introduction: There is currently a lack of easy-to-use and effective robotic devices for upper-limb rehabilitation after stroke. Importantly, most current systems lack the provision of somatosensory information that is congruent with the virtual training task. This paper introduces a novel haptic robotic system designed for upper-limb rehabilitation, focusing on enhancing sensorimotor rehabilitation through comprehensive haptic rendering.

Methods: We developed a novel haptic rehabilitation device with a unique combination of degrees of freedom that allows the virtual training of functional reach and grasp tasks, where we use a physics engine-based haptic rendering method to render whole-hand interactions between the patients' hands and virtual tangible objects. To evaluate the feasibility of our system, we performed a clinical mixed-method usability study with seven patients and seven therapists working in neurorehabilitation. We employed standardized questionnaires to gather quantitative data and performed semi-structured interviews with all participants to gain qualitative insights into the perceived usability and usefulness of our technological solution.

Results: The device demonstrated ease of use and adaptability to various hand sizes without extensive setup. Therapists and patients reported high satisfaction levels, with the system facilitating engaging and meaningful rehabilitation exercises. Participants provided notably positive feedback, particularly emphasizing the system's available degrees of freedom and its haptic rendering capabilities. Therapists expressed confidence in the transferability of sensorimotor skills learned with our system to activities of daily living, although further investigation is needed to confirm this.

Conclusion: The novel haptic robotic system effectively supports upper-limb rehabilitation post-stroke, offering high-fidelity haptic feedback and engaging training tasks. Its clinical usability, combined with positive feedback from both therapists and patients, underscores its potential to enhance robotic neurorehabilitation.

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来源期刊
Journal of NeuroEngineering and Rehabilitation
Journal of NeuroEngineering and Rehabilitation 工程技术-工程:生物医学
CiteScore
9.60
自引率
3.90%
发文量
122
审稿时长
24 months
期刊介绍: Journal of NeuroEngineering and Rehabilitation considers manuscripts on all aspects of research that result from cross-fertilization of the fields of neuroscience, biomedical engineering, and physical medicine & rehabilitation.
期刊最新文献
Comparison of synergy extrapolation and static optimization for estimating multiple unmeasured muscle activations during walking. Immersive virtual reality for learning exoskeleton-like virtual walking: a feasibility study. Instrumented assessment of lower and upper motor neuron signs in amyotrophic lateral sclerosis using robotic manipulation: an explorative study. Rest the brain to learn new gait patterns after stroke. Effects of virtual reality rehabilitation after spinal cord injury: a systematic review and meta-analysis.
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