Active clinical trials for "Spinal Cord Injuries"

This prospective randomized double blinded study will be conducted to evaluate the effect of early pharmacologic intervention with calcitonin on the incidence or the severity of neuropathic pain after spinal cord injury

After partial spinal cord injury, gait deficits may be present and often remain even after intensive rehabilitation. New robotic technologies have recently emerged to help augment the extent of rehabilitation. However, these are complex tools to integrate into clinical practice and little is known about the potential factors that may influence the uptake of a locomotor program using this technology by clinicians. The goal of this project is to bring together researchers, administrators, clinicians and patients to define and implement an overground robotized gait training program in clinic. We will also investigate the added value of leg and trunk muscle stimulation combined with robotic walking training, to see if it could enhance recovery.

Ninety-nine individuals meeting the study's inclusion/exclusion criteria will be enrolled in this study. The objective of this study is to evaluate three different therapeutic approaches to synergistically retrain functional movement patterns of the upper extremities in combination with trunk stabilization to promote neurologic and functional recovery after SCI. Each subject will complete 40 sessions of intervention. Subjects will also complete a Baseline Evaluation (week 0), Re-Evaluation (week 4), Post Treatment Evaluation (week 8), and a Follow-Up Evaluation (week 12).

The SciExVR study will evaluate the potential benefit of autologous bone marrow derived stem cells (BMSC) in the treatment of spinal cord injury with evidence of impaired motor or sensory function. The treatment consists of bilateral paraspinal injections of the BMSC at the level of the injury as well as superior and inferior to that spinal segment followed by an intravenous injection and intranasal placement. Patients undergoing BMSC treatment may also be assigned to use of exoskeletal movement (or equivalent) or virtual reality visualization (or equivalent) to augment upper motor neuron firing and/or receptivity of the sensory neurons. http://mdstemcells.com/sciexvr/

This proof-of-principle study will determine if breathing an increased concentration of oxygen above the concentration in normal room air results in changes in the sensory and motor function in people with subacute or chronic, severe spinal cord injury (SCI).

The use of the conditioning open-label placebo (COLP) paradigm will be studied as a dose extension method to lower opioid dosage in patients with spinal cord injury, polytrauma, and burn injury. The goal is to provide the same level of pain relief with a reduced opioid intake to diminish side effects as well as the risk of addiction associated with opioid treatment.

The objective of this study is to examine the efficacy of an integrated, participant-centered tele-health physical activity program for individuals with SCI on psychological and social factors through a parallel mixed-methods design approach. We will examine changes in psychological (self-efficacy, self-esteem, exercise outcome expectations, depression, positive affect and well-being, quality of life) and social factors (participation and satisfaction with social roles and activities, activity engagement) following participation in an 8-week integrated group tele-exercise health and wellness physical activity program, with retention assessed at 8-weeks following completion (16 weeks from baseline). We will also complete small group interviews with all participants to understand participant experiences of, response to, and recommendations before and following participation in group tele-exercise program. To date, there is extremely limited evidence for the efficacy of psychological and social well-being of remotely delivered community-based exercise to individuals with SCI. A pilot effectiveness trial of a tele-exercise health and wellness program will be conducted using a mixed methods design with a randomized waitlist control group. Quantitative and qualitative data collection is sequential in nature and other data are collected simultaneously. Individuals with SCI (living with injury 12 months or longer) will be recruited based on existing partnerships locally and nationally. To assess limited effectiveness, we aim to enroll 35 individuals with SCI. Recruitment of these participants will stem from the investigator's ongoing community partnership with local and national partners. The tele-exercise health & wellness program will consist of virtual group class, twice per week, intended to generate physical confidence and strength for individuals living with SCI. Each session will be co-led with by an individual living with SCI.

The purpose of this pilot research project is to examine the impact of a low-glycemic index (GI) diet on postprandial hypotension and glucose control in individuals with chronic spinal cord injury. The objectives are: 1) To evaluate the effect of the low-GI diet on the magnitude of postprandial systolic blood pressure drop compared to a high-GI control diet. 2)To evaluate the effect of a low-GI diet on postprandial glucose and insulin responses compared to a high-GI control diet.

The purpose of this study is to examine two 8-week, remotely delivered exercise interventions: Movement-to-Music (M2M) and Standard Exercise Training (SET), with 327 adults with spinal cord injury. Enrolled participants will be randomized into one of three groups: a) M2M, b) SET, and c) attention control (AC).

The main goal of the project is to develop multiple noninvasive neuromodulatory strategies to facilitate full weight bearing stepping overground in people with paralysis. We will determine the effectiveness of combining noninvasive spinal cord stimulation and the administration of buspirone (a monoaminergic agonist) in facilitating locomotor activity in a gravity-neutral apparatus, during body weight supported stepping on a treadmill, when stepping overground in an assistive robotic exoskeleton, or during full weight bearing stepping overground in a rolling walker. Our objective is to identify the experimental variables that define the efficacy of these novel neuromodulatory techniques over a 5 year period in 15 participants with severe spinal cord injury who are at least one year post-injury.