Litcius/Paper detail

HandMATE: Wearable Robotic Hand Exoskeleton and Integrated Android App for At Home Stroke Rehabilitation

Melissa Sandison, Khue Phan, Rafael Casas, Lan Nguyen, Michael Lum, Matteo Pergami-Peries, Peter S. Lum

202050 citationsDOIOpen Access PDF

Abstract

We have developed HandMATE (Hand Movement Assisting Therapy Exoskeleton); a wearable motorized hand exoskeleton for home-based movement therapy following stroke. Each finger and the thumb is powered by a linear actuator which provides flexion and extension assistance. Force sensitive resistors integrated into the design measure grasp and extension initiation force. An assistive therapy mode is based on an admittance control strategy. We evaluated our control system via subject and bench testing. Errors during a grip force tracking task while using the HandMATE were minimal (<1%) and comparable to unassisted healthy hand performance. We also outline a dedicated app we have developed for optimal use of HandMATE at home. The exoskeleton communicates wirelessly with an Android tablet which features guided exercises, therapeutic games and performance feedback. We surveyed 5 chronic stroke patients who used the HandMATE device to further evaluate our system, receiving positive feedback on the exoskeleton and integrated app.

Topics & Concepts

ExoskeletonWearable computerPowered exoskeletonThumbPhysical medicine and rehabilitationComputer scienceAndroid (operating system)ActuatorRehabilitationChronic strokeSimulationHuman–computer interactionArtificial intelligenceMedicineEmbedded systemPhysical therapyAnatomyOperating systemStroke Rehabilitation and RecoveryCerebral Palsy and Movement DisordersBotulinum Toxin and Related Neurological Disorders