Patrick T. Hall scite author profile

Wearable passive (ie, spring powered) shoulder exoskeletons could reduce muscle output during motor tasks to help prevent or treat shoulder musculoskeletal disorders. However, most wearable passive shoulder exoskeletons have been designed and evaluated for static tasks, so it is unclear how they affect muscle output during dynamic tasks. The authors used a musculoskeletal model and Computed Muscle Control optimization to estimate muscle output with and without a wearable passive shoulder exoskeleton during 2 simulated dynamic tasks: abduction and upward reach. To an existing upper extremity musculoskeletal model, the authors added an exoskeleton model with 3-dimensional representations of the exoskeleton components, including a spring, cam wheel, force-transmitting shoulder cable, and wrapping surfaces that permitted the shoulder cable to wrap over the shoulder. The exoskeleton reduced net muscle-generated moments in positive shoulder elevation by 28% and 62% during the abduction and upward reach, respectively. However, muscle outputs (joint moments and muscle effort) were higher with the exoskeleton than without at some points of the movement. Muscle output was higher with the exoskeleton because the exoskeleton moment opposed the muscle-generated moment in some postures. The results of this study highlight the importance of evaluating muscle output for passive exoskeletons designed to support dynamic movements to ensure that the exoskeletons assist, rather than impede, movement.

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First for Stroke: using the Microsoft ‘Kinect’ as a facial paralysis stroke rehabilitation tool

Breedon

Russell

Logan

et al. 2014

Int J Integr Care

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There are around 152,000 incidents of stroke each year in the UK, with 16% of cases having long lasting facial weakness. Most strokes occur after 65 years of age and with people living longer the number of sufferers will continue to increase, making cost effective community rehabilitation a higher priority. This project is developing a new rehabilitation intervention for use by stroke patients, using the Microsoft Kinect camera and a PC monitor to provide interactive feedback in a programme of rehabilitation exercises configured uniquely for each user. The system provides multimodal interaction to support varied patient symptoms with physical remote control, handgesture control and voice activation options.

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Patrick T. Hall

Effect of continuous, mechanically passive, anti-gravity assistance on kinematics and muscle activity during dynamic shoulder elevation

Fully Implanted Prostheses for Musculoskeletal Limb Reconstruction After Amputation: An In Vivo Feasibility Study

Wearable Shoulder Exoskeleton with Spring-Cam Mechanism for Customizable, Nonlinear Gravity Compensation

Effect of Mechanically Passive, Wearable Shoulder Exoskeletons on Muscle Output During Dynamic Upper Extremity Movements: A Computational Simulation Study

First for Stroke: using the Microsoft ‘Kinect’ as a facial paralysis stroke rehabilitation tool

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