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Use of a Micro-Processor Controlled Knee-Ankle-Foot Orthosis Compared to Traditional Rehabilitation in Spinal Cord Injury
The study will evaluate the potential of the C-Brace from Ottobock to improve the functional mobility and quality of life in individuals with lower extremity impairments due to spinal cord injury when compared to traditional rehabilitation methods.
Research Project
Noninvasive Tools for Assessing Muscle Structure and Function
A fundamental challenge in physical medicine and rehabilitation has long been measuring muscle force and stiffness, yet there are no rigorous methods for doing so noninvasively.
Research Project
INside the OUTcomes: A Rehabilitation Research Podcast
INside the OUTcomes: A Rehabilitation Research Podcast is produced by the Center for Rehabilitation Outcomes Research (CROR) at Shirley Ryan 汤头条app.
Research Project
Improving Adherence to Spinal Cord Injury Exercise Guidelines Using Smartphone-Based Technology and E-coaching: A Proof-of-Concept SMART-Design Study
Research Project
Using the Fitbit for Early Detection of Infection and Reduction of Healthcare Utilization after Discharge in Pediatric Surgical Patients
Research Project
COMPLETE: Locomotor Function Following Acute Intermittent Hypoxia and Transcutaneous Electrical Spinal Cord Stimulation in Individuals with Spinal Cord Injury
The purpose of this study is to determine if acute intermittent hypoxia therapy (AIH) combined with transcutaneous spinal cord stimulation (tSCS) during ambulation training improves locomotor function in individuals with spinal cord injury.
Research Project
Characterization and Clinical Trial of a Variable Friction Shoe, a new Paradigm of Reduced-Constraint Locomotor Therapy for People Exhibiting Foot Drop due to Stroke
The purpose of this study is to evaluate the effects of the Variable Friction shoe on gait in individuals with chronic stroke and foot drop. During each 12-week phase of an AB-BA clinical trial, participants will walk for at least 30-45 minutes per day for at least 5 days per week at home.
Research Project
Assessment of a Microprocessor Ankle for Low Mobility Individuals with Amputation: Phase I
This study is being done to conduct a preliminary investigation into a new prosthetic microprocessor controlled ankle, called the Damping, Stiffness, and Repositioning (DSR) ankle. Participants will visit the Shirley Ryan 汤头条app 10-16 times over 9 weeks, each visit lasting approximately 3 hours, to perform a series of walking and mobility tests with both their own prosthetic ankle and the DSR ankle.
Research Project
Breathing Low Oxygen to Enhance Spinal Stimulation Training and Functional Recovery in Persons with Chronic Spinal Cord Injury: The BO2ST Trial
The goal of this double-blind, placebo-controlled, block-randomized clinical trial is to investigate the efficacy and potency of daily acute intermittent hypoxia (AIH) combined with transcutaneous electrical spinal stimulation (tSTIM) and skill-based walking practice.
Research Project
ExoNET for Gait
Is it possible to use a network of springs to make up for what the muscles do during walking and hence assist gait? This study shows the potential of the ExoNET device to reproduce the torques generated by your muscles while you walk. We feel that this structural design can guide devices in the future and may lead to clinical tools that are lightweight, unintimidating, easy to use, and inexpensive.
Research Project
ExoNET
Can you build a minimally-actuated exo-robot as a wearable orthosis? Maybe one that is most simply built out of springs? It may not do everything, but what can you do? The secret is to allow networks of springs, and structural optimization algorithm that tells us how to build it.
Research Project