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 …

Objective To identify the effects of robotic gait training practices in individuals with cerebral
palsy. Data Sources The search was performed in the following electronic databases …

Objective: To assess safety and mobility outcomes utilizing the Indego powered exoskeleton
in indoor and outdoor walking conditions with individuals previously diagnosed with a spinal …

Abstract Study design Clinical trial. Objective To demonstrate that a 12-week exoskeleton-
based robotic gait training regimen can lead to a clinically meaningful improvement in …

Recovery of the upper extremity (UE) and hand function is considered the highest priority for
people with tetraplegia, because these functions closely integrate with their activities of daily …

Objective Spinal cord injury (SCI) damages synaptic connections between corticospinal
axons and motoneurons of many muscles, resulting in devastating paralysis. We …

Background In clinical practice, therapists often rely on clinical outcome measures to
quantify a patient's impairment and function. Predicting a patient's discharge outcome using …

Incomplete spinal cord injuries (iSCI) leave spared synaptic pathways below the level of
injury. Intermittent hypoxia (IH) elicits plasticity in the spinal cord and strengthens spared …

Objective To determine the impact of long-term, body weight–supported locomotor training
after chronic, incomplete spinal cord injury (SCI), and to estimate the health care costs …

Key factors positively influencing rehabilitation and functional recovery after spinal cord
injury (SCI) include training variety, intensive movement repetition, and motivating training …