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Vibration Project For Muscle Spasms
Learning the mechanisms behind spasms and spasticity, and using them to appropriately manage them post spinal cord injury.
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Descending Pathways + Spasticity
This study explore the contribution of descending motor pathways to the development of spasticity and motor recovery with the aim to implement effective rehabilitative intervention.
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Using Sensors and EMG Biofeedback to Increase Upper Limb Voluntary Output after Stroke or SCI
We combine sensors with fun, interactive computer games in order to strengthen arm muscles after stroke or SCI! Free program offered by the Perez Lab.
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Spasticity Assessments ÐÇ¿Õ´«Ã½ÊÓƵ Project
The purpose of the study was to examine the contribution of passive muscle stiffness and active spinal reflex mechanisms to clinical outcomes of spasticity after SCI.
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Intracortical Inhibition in Humans with Spinal Cord Injury
This study investigates the intracortical inhibition in humans with cervical spinal cord injury. We particularly aim to understand the inhibitory mechanism for the control of upper arm muscles to further promote rehabilitation protocol.
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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.
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Promoting Patient-Centered Care through use of Standardized Assessments
KT DRRP?is a grant supported research project involving a cooperative of research scientists and researchers joined for the advancement of science.
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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.
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RRTC: Home and Community-Based Services
View the overview of the projects associated with this RRTC: Home and Community-Based Services.
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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.
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N?der Lab: Assessment and Monitoring of Neuromotor Function through Advanced Dynamic Pose Estimation
We will use videos of people with Parkinson's disease (PD) doing different things to develop sophisticated computer programs that can detect specific movement patterns that are only seen in people with PD. We will then see how well our computer programs can diagnose early PD, compared with medical and clinical professionals.
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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.
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