Powered robotic exoskeletons are a potential intervention for gait rehabilitation in stroke to
enable repetitive walking practice to maximize neural recovery. As this is a relatively new …

Powered robotic exoskeletons are an emerging technology of wearable orthoses that can be
used as an assistive device to enable non-ambulatory individuals with spinal cord injury …

Background Cerebral palsy (CP) is a leading cause of childhood disability. The motor
impairments of individuals with CP significantly affect the kinematics of an efficient gait …

Background For individuals who sustain a complete motor spinal cord injury (SCI) and rely
on a wheelchair as their primary mode of locomotion, overground robotic exoskeletons …

Background: Secondary impairments associated with spinal cord injury (SCI) limit one's
independent functionality and negatively impact quality of life (QoL). Objective: The purpose …

Aim: The main objectives of this study were to quantify clients' satisfaction and perception
upon completion of a locomotor training program with an overground robotic exoskeleton …

During the last few years, interest has been growing to mechatronic and robotic
technologies utilized in wearable powered exoskeletons that assist standing and walking …

Background: In wheelchair users with a chronic spinal cord injury (WU SCI), prolonged
nonactive sitting time and reduced physical activity—typically linked to this mode of mobility …

Background and Purpose: Understanding the role and significance of trunk and upper
extremity muscles in paraplegic gait can help in designing more effective assistive devices …

Background: Studies collectively imply that the reciprocal link has no effect on walking when
using reciprocating gait orthoses (RGOs). There may be differences between the 2 …