Spinal reflexes take important part in our movement. After spinal cord injury (SCI), reflexes often change. For many years, researchers and doctors have assumed that abnormally acting spinal reflexes lead to movement problems, without clear scientific evidence. For example, in people who suffer spasticity, a common problem after SCI, walking is disturbed, presumably because stretch reflexes (e.g., knee jerk reflex) and some other reflexes are not working well. Yet, which reflex is causing a problem in what way has not been well understood. Such understanding is very important in developing and applying effective therapies for improving gait recovery after SCI. Therefore, in this project, we are studying spinal stretch reflexes and other reflexes during walking, to understand how these reflexes contribute to spastic gait problems in people with chronic incomplete SCI. Successful completion of this project will result in better understanding of spastic gait problems, which in turn, will help us develop more effective therapy application and improve the quality of life in people after SCI.

RESTORE is a database of individuals who are interested in being contacted about future stroke research at the Medical University of South Carolina. Included in the database is health information and characteristics about the individual's health, stroke, and their recovery. The results of other stroke recovery studies the individual participates in at MUSC will also be in the database. The database and information included will lead to better and more targeted recruitment for stroke recovery projects.

Rehabilitation interventions including resistance training, functional and task-specific therapy, and gait or locomotor training have been shown to be successful in improving motor function in individuals with neurologic disease or injury. Recent investigations conducted in our laboratory indicate that intense resistance training coupled with task-specific functional training lead to significant gains in functional motor recovery. Similarly, gait rehabilitation involving intense treadmill training and/or task-specific locomotor training has been shown to be effective in improving locomotor ability. However, the underlying neural adaptations associated with these therapeutic approaches are not well understood. Our primary goal is to understand the motor control underpinnings of neurologic rehabilitation in order to apply this knowledge to future generations of therapeutic interventions.

In this study researchers aim to improve the collaborative research efforts of the Center for Rehabilitation Research in Neurological Conditions at the Medical University of South Carolina. The Center is comprised of several laboratories, including: the Communication and Swallowing Laboratory; the Locomotor Energetics and Assessment Laboratory; the Locomotor Rehabilitation Laboratory; the Neuromuscular Assessment Laboratory; and the Upper Extremity Motor Function Laboratory. The PI and investigators will recruit for their current and future studies in the above laboratories from the Clinical Database established here. Studies utilizing the Clinical Database will not include PHI but will only link to the Clinical Database individual patient code. This study is completed by completing a simple screening form with study personnel. Medical care/treatment future participation in studies is not influenced by inclusion in this study. We are also recruiting Healthy Controls for this study.