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The Influence of Stroke on Reciprocal Control of the Stretch Reflex During Posture
The purpose of this research study is to better understand how a stroke changes our muscles' ability to maintain postures.
Age Range
35 - 70
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
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
Wearable Sensor Platform to Monitor Stroke Recovery During Inpatient Rehabilitation
The purpose of this study is to assess the feasibility of continuous long-term monitoring of inpatients with stroke using wearable sensors.
Age Range
18-99
Clinical Trial
Wearable Airbag Technology to Mitigate Falls in Individuals With High Fall Risk
The purpose of this study is to evaluate the feasibility and efficacy of a smart airbag system that detects and mitigates fall-related impact in individuals with high fall risk.
Age Range
18-85
Clinical Trial
Improving Arm Movement Using Wearable Device After Stroke
Shirley Ryan AbilityLab is evaluating a new rehab therapy using wearable devices and a video game interface to improve arm movement after stroke. Participants use these wearable devices, called myoelectric computer interfaces, to play video games using their arm muscles.
Age Range
At least 18 years old
Clinical Trial
Tracking the evolution of spasticity in acute stroke
This study will measure arm muscle weakness and spinal cord changes following post stroke.
Age Range
Adults (> 18)
Clinical Trial
Can H-Reflex down conditioning reduce spasticity in stroke survivors?
The purpose of this study is to study the effects of reflex training as a new intervention to help with spasticity, a motor impairment that can occur during the recovery after a stroke.
Age Range
Adults (18-85)
Clinical Trial