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Error-enhanced Learning & Recovery in 2 & 3 Dimensions
a NIH funded grant (James Patton, PI) investigating differences in outcomes using models that describe how a person responds to error during practice, so we can prescribe the best therapeutic training. ?
Research Project
Aphasia Trajectory Research Study
This study aims to recognize, identify, and evaluate the trajectory recovery and abilities of a person who has had a stroke and living with cognitive-communication challenges and their respective quality of life.
Research Project
Healthcare Outside of the Hospital
3 remote monitoring devices are transforming how we track health.
News
A Life Regained Following Stroke
Walter arrived paralyzed on the right side of his body. He arrived on a Saturday and by Tuesday, he took his first steps. Soon after walking, he didn¡¯t stop.
Patient Story
Timing of transcranial direct current stimulation (tDCS) combined with speech and language therapy (SLT): An Intervention Development study for Aphasia
This study will determine if it is better to receive tDCS before, during, or after the speech and language therapy session.
Clinical Trial
COMPLETE: Sensor Technologies Applied to Rehabilitation in Stroke
Our research program focuses on the pivotal role of clinicians and therapists in implementing routine rehabilitation care, and on enhancing their capacity to provide evidence-based, individualized, and precise therapy.
Research Project
Sleep of Inpatients: Empower Staff to Act for Acute Stroke Rehabilitation (SIESTA)
A multidisciplinary group of researchers will adapt, implement and evaluate a state-of-the-art intervention to promote sleep for stroke patients undergoing acute rehabilitation.
Research Project
COMPLETE: Safety and Efficacy of Samsung GEMS-H Device Training in Sub-Acute and Chronic Stroke
The purpose of this research is to determine the effects of gait training with the Samsung
GEMS-H device on walking, balance, nervous system activity, and quality of life in individuals with sub-acute and chronic stroke.
GEMS-H device on walking, balance, nervous system activity, and quality of life in individuals with sub-acute and chronic stroke.
Research Project
COMPLETE: Wearable Sensor Platform to Monitor Stroke Recovery
This project proposes continuous monitoring, quantification, and interpretation of recovery during inpatient treatment of stroke using non-invasive, portable, real-time body-worn sensors.
Research Project
Improving Arm Movement After Stroke Using Wearable Device
The Slutzky Neuroprosthetics Lab Team is evaluating a new rehab therapy using wearable devices and a video game interface to improve arm movement after stroke.
Research Project
Brain-Machine Interfacing for Hand and Arm Movement
The ultimate goal of this project is to restore hand and arm function to people with paralysis from neurological disorders. Brain machine interfaces - BMIs, which decode electrical signals recorded from the brain, offer one way to bypass the area causing paralysis and intuitively reanimate paralyzed muscles via electrical stimulation.
Research Project
Improving Arm Movement Using Wearable Device After Stroke
Shirley Ryan ³Ô¹ÏÌìÌÃ91 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