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HYBRID: Ambulatory Robotic Gait Trainer with Movement Induction and Partial Weight Support

Eloy Urendes, Guillermo Asín-Prieto, R. Ceres, Rodrigo García-Carmona, Rafael Raya, José L. Pons

Year
2019
Citations
17
Access
Open access

Abstract

Robotic exoskeletons that induce leg movement have proven effective for lower body rehabilitation, but current solutions offer limited gait patterns, lack stabilization, and do not properly stimulate the proprioceptive and balance systems (since the patient remains in place). Partial body weight support (PBWS) systems unload part of the patient’s body weight during rehabilitation, improving the locomotive capabilities and minimizing the muscular effort. HYBRID is a complete system that combines a 6DoF lower body exoskeleton (H1) with a PBWS system (REMOVI) to produce a solution apt for clinical practice that offers improves on existing devices, moves with the patient, offers a gait cycle extracted from the kinematic analysis of healthy users, records the session data, and can easily transfer the patient from a wheelchair to standing position. This system was developed with input from therapists, and its response times have been measured to ensure it works swiftly and without a perceptible delay.

Keywords

ExoskeletonPhysical medicine and rehabilitationGaitRehabilitationWheelchairSession (web analytics)KinematicsComputer scienceGait trainingProprioception

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