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Biomechanical differences between ablebodied and spinal cord injured individuals walking in an overground robotic exoskeleton (2022)
Journal Article
Hayes, S. C., White, M., Wilcox, C. R. J., White, H. S. F., & Vanicek, N. (2022). Biomechanical differences between ablebodied and spinal cord injured individuals walking in an overground robotic exoskeleton. PLoS ONE, 17(1), Article e0262915. https://doi.org/10.1371/journal.pone.0262915

Background Robotic assisted gait training (RAGT) uses a powered exoskeleton to support an individual's body and move their limbs, with the aim of activating latent, pre-existing movement patterns stored in the lower spinal cord called central pattern... Read More about Biomechanical differences between ablebodied and spinal cord injured individuals walking in an overground robotic exoskeleton.

The effects of robot assisted gait training on temporal-spatial characteristics of people with spinal cord injuries: a systematic review (2018)
Journal Article
Hayes, S. C., James Wilcox, C. R., Forbes White, H. S., & Vanicek, N. (2018). The effects of robot assisted gait training on temporal-spatial characteristics of people with spinal cord injuries: a systematic review. The journal of spinal cord medicine : JSCM, 41(5), 529-543. https://doi.org/10.1080/10790268.2018.1426236

Context: Robotic assisted gait training (RAGT) technology can be used as a rehabilitation tool or as an assistive device for spinal cord injured (SCI) individuals. Its impact on upright stepping characteristics of SCI individuals using treadmill or o... Read More about The effects of robot assisted gait training on temporal-spatial characteristics of people with spinal cord injuries: a systematic review.