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Gait training using a robotic hip exoskeleton improves metabolic gait efficiency in the elderly

Elena Martini, Simona Crea, Andrea Parri, Luca Bastiani, Ugo Faraguna, Zach McKinney, Raffaello Molino-Lova, Lorenza Pratali, Nicola Vitiello

Year
2019
Citations
97
Access
Open access

Abstract

Robotic exoskeletons are regarded as promising technologies for neurological gait rehabilitation but have been investigated comparatively little as training aides to facilitate active aging in the elderly. This study investigated the feasibility of an exoskeletal Active Pelvis Orthosis (APO) for cardiopulmonary gait training in the elderly. Ten healthy elderly volunteers exhibited a decreased (-26.6 ± 16.1%) Metabolic Cost of Transport (MCoT) during treadmill walking following a 4-week APO-assisted training program, while no significant changes were observed for a randomly assigned control group (n = 10) performing traditional self-paced overground walking. Moreover, robot-assisted locomotion was found to require 4.24 ± 2.57% less oxygen consumption than free treadmill walking at the same speed. These findings support the adoption of exoskeletal devices for the training of frail individuals, thus opening new possibilities for sustainable strategies for healthy aging.

Keywords

ExoskeletonGaitGait trainingPhysical medicine and rehabilitationTraining (meteorology)Computer sciencePowered exoskeletonMedicinePhysical therapyRehabilitation

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