View clinical trials related to Spinal Cord Injuries.
Filter by:This study uses closed-loop control of tendon vibration to implement clinically meaningful management of muscle spasms after spinal cord injury (SCI), and to understand the mechanisms responsible for spasm generation change in response to vibration.
The purpose of this study is to determine if spinal excitability is increased with a Spinal Associative Stimulation (SAS) protocol, and to determine the functional consequences of this technique on motor recovery.
The proposed phase 2 trial a randomized, placebo-controlled, parallel group trial in persons with cervical or thoracic SCI, AIS grade A, B, C, or D, 6 months or later after injury. The trial will test the hypothesis that a Home-Based Multimodality Functional Recovery and Metabolic Health Enhancement Program that addresses multiple pathophysiologic factors in SCI and includes functional electrical stimulation during leg cycling (FES-LC) plus arm ergometry and an androgen will be more efficacious than functional electrical stimulation during leg cycling (FES-LC) plus arm ergometry plus placebo in improving aerobic capacity, function, metabolism, bone health, and wellbeing.
Madonna's Rehabilitation Engineering Center of Excellence (REC) is continually developing custom devices for persons with disabilities. These devices are created to improve the independence of individuals living with disabilities at Madonna Rehabilitation Hospitals and in the community. The purpose of this study is to investigate the impact custom assistive and adaptive devices have on patient independence, quality of life, and experience at Madonna Rehabilitation Hospitals.
Aim is to compare exoskeleton assisted gait training with end-effector assisted gait training in Spinal Cord Rehabilitation
One of the main objectives in spinal cord injury rehabilitation programs is the improvement of trunk control in order to achieve independence, to prevent complications and, in specific cases to walk. Research question: What is the effect of kayak ergometer training in trunk control, cardiovascular condition and independence in individuals with a spinal cord injury? Purpose: To determine the effect of kayak ergometer training in trunk control, cardiovascular condition and independence in individuals with a spinal cord injury. Methods: Randomized clinical trial, blinded to evaluator and to the person that will analyze data. Population: Spinal cord injured individuals treated at the National Institute of Rehabilitation, with a spinal cord injury of any ethiology, with a neurologic level of C8 and below, with time since injury from three months to one year. Proceeding: The subjects will be randomly assigned to : a control group with neuro propioceptive facilitation exercises focused in trunk control or an experimental group with kayak ergometer training. Both groups will recieve 5 sessions a week during 6 weeks.
This study aim to evaluate the safety and efficacy of intrathecal transplantation of allogeneic umbilical cord derived mesenchymal stem cells (UC-MSC) for treatment of different phrases of spinal cord injury. Here, the history of spinal cord injury is divided into three periods, Sub-acute SCI, Early stage of chronic SCI, and Late stage of chronic SCI, which is 2W-2M, 2M-12M, and more than 12M after injury, respectively. The purpose is to investigate whether the patients with spinal cord injury benefit from UC-MSC transplantation, and then find out the best time for SCI treatment. In this part of the study, the investigators will treat patients with sub-acute spinal cord injury with UC-MSC transplantation or placebo.
This study aim to evaluate the safety and efficacy of intrathecal transplantation of allogeneic umbilical cord derived mesenchymal stem cells (UC-MSC) for treatment of different phrases of spinal cord injury. Here, the history of spinal cord injury is divided into three periods, Sub-acute SCI, Early stage of chronic SCI, and Late stage of chronic SCI, which is 2W-2M, 2M-12M, and more than 12M after injury, respectively. The purpose is to investigate whether the patients with spinal cord injury benefit from UC-MSC transplantation, and then find out the best time for SCI treatment. In this part of the study, the investigators will treat patients with early stage of chronic spinal cord injury with UC-MSC transplantation or placebo.
The purpose of this project is to determine if 5 weeks of ketogenic (KD, high-fat) diet vs. standard diet (SD) significantly improves motor and sensory function, glycemic function, and functional independence in patients with spinal cord injury.
Growing evidence indicates that electrical spinal cord stimulation improves motor functions both immediately and over the long term via modulating the excitability of spinal circuitry in patients with spinal cord injury. Recently, a novel, non-invasive, well-tolerated, and painless lumbosacral transcutaneous electrical stimulation strategy was demonstrated to be effective in improving lower limb motor function in participants with spinal cord injury. Our current project, cervical transcutaneous electrical stimulation and intensive exercise for arms and hands are also revealing a significant improvement in upper extremity function. Additionally, the subject and caregiver noted that stair climbing ability has been substantially enhanced starting from the first week of cervical stimulation treatment and continues to date. This study is a prospective efficacy trial of combined transcutaneous cervical and lumbosacral electrical stimulation with intensive physical therapy for improving locomotion in people with incomplete tetraplegia and paraplegia. This experiment design consists of two to four-phase intervention programs, including one-month physical therapy only followed by one-month spinal stimulation combined with physical therapy. Between each intervention, washout periods of up to one month may be used to determine any after-effects of the interventions. The intervention arms will be repeated if the functional improvement does not reach a plateau during the first two months of interventions. Sessions will last up to 2 hours/day, 2 to 5 days/week for each arm. Both immediate and lasting improvements in lower extremity function and autonomic function via transcutaneous spinal stimulation and intensive physical therapy will be evaluated.