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Focus Group: Care Partners of People with SCI
嫩B研究院ers at Shirley Ryan 嫩B研究院 are recruiting for an online focus group to learn about the experiences and outcomes of people living with spinal cord injuries, and how they are related to the length and intensity of rehabilitation services across countries. The purpose of the study is to learn how rehabilitation experiences and outcomes are related to rehabilitation length of stay across different countries.
Age Range
18+
Clinical Trial
Customize How To Control Robot Movements
Shirley Ryan Ability Lab is conducting a research study that will investigate a new approach for how to control robots.
Age Range
18+
Clinical Trial
Help Us Learn About How You Use Your Arms In Daily Life
How does arm use in daily life change during the course of outpatient rehabilitation therapy? Data from wearable sensors and your feedback will help us learn how we can improve treatments to help people return to important daily activities.
Clinical Trial
Center for Rehabilitation Outcomes 嫩B研究院 Registry
The aim of this project is to develop a registry of research volunteers for recruitment purposes at the Center for Rehabilitation Outcomes 嫩B研究院.
Age Range
18 or older
Clinical Trial
Robot Based Gait Training Therapy for Pediatric Population with Cerebral Palsy
This study is looking for children with Cerebral Palsy to wear an robotic exoskeleton to help improve walking ability.
Age Range
8-21
Clinical Trial
Locomotor function following transcutaneous electrical spinal cord stimulation in individuals with hemiplegic stroke
Despite advances in stroke rehabilitation, more than two-thirds of the 7 million stroke survivors in the U.S. still struggle to walk independently in their communities. Most current therapies focus on stimulating the brain areas that control leg movement, yet many stroke survivors continue to face issues like poor coordination, spasticity, and muscle weakness. We propose a different approach—using electrical stimulation of the spinal cord to improve walking after stroke. This study is looking for persons who have had a stroke to determine if spinal stimulation helps improve walking ability.
Age Range
18-99
Clinical Trial
C-Brace Usage in SCI Population vs Traditional rehab Methods: Outcome Differences
To determine if the use of the Micro-Processor controlled Knee-Ankle-Foot Orthosis (C-Brace) in individuals with incomplete spinal cord injury facilitates improved overall health compared to individuals receiving traditional care.
Age Range
18-80
Clinical Trial
Quantifying the biomechanical and neural factors contributing to shoulder instability
The objective of this work is to quantify the passive and active contributions to shoulder stability in individuals with shoulder instability and asymptomatic shoulders.
Age Range
18-30
Clinical Trial
An Exploration of Acute Intermittent Hypoxia as a tool to Enhance Neural Recovery in Stroke Survivors; a pilot safety study.
This is a Phase I safety study. Our plan consists of dose-escalation exposures with continual assessment of hypoxic conditioning impact in individuals with chronic stroke.
Clinical Trial
HANDS: A Multi-Center Clinical Trial to Evaluate the Effectiveness of Intermittent Hypoxia Therapy in Individuals with Spinal Cord Injury
A study to investigate the effectiveness of daily acute intermittent hypoxia therapy (dAIH), coupled with a massed practice intervention or the use of high repetition training.
Age Range
18-70
Clinical Trial
Effect of a Novel Intervention Using Daily Intermittent Hypoxia and High Intensity Training on Upper Limb Function in Individuals with Spinal Cord Injury
This study proposes the examine the effects of breathing?mild bouts of lower oxygen?in combination with upper extremity training, over the course of a month, to evaluate changes in upper extremity function, dexterity, and ability to complete activities of daily living.
Clinical Trial
Improve dynamic lateral balance of humans with spinal cord injury
This study is investigating gait training techniques that could help people with a spinal cord injury walk faster, reduce fall risk, and improve their functional balance.
Clinical Trial