Active clinical trials for "Spinal Cord Injuries"

Spinal cord injury (SCI) leads to muscle atrophy, hyperreflexia and spasticity, symptoms that decrease quality of life and prevent effective rehabilitation. Previous findings from our labs found that a passive cycling exercise program, motorized bicycle exercise training (MBET), in adult spinally transected animals reduced muscle atrophy and normalized hyperreflexia. We found that MBET could prevent the onset of hyperreflexia after spinal transaction, that MBET could also be used to rescue from hyperreflexia once it had set in, and that MBET could induce savings in normalization of reflexes after MBET ceased. We also demonstrated that MBET was effective in rescuing from hyperreflexia in a chronic ASIA B SCI patient, and that short-term MBET could lead to brief savings in normalization of reflexes once MBET ceased. The proposed studies will test the ability to MBET to prevent the onset of hyperreflexia in a group of acute SCI patients trained before hyperreflexia has had a chance to set in. In addition, the proposed research will attempt to confirm the possibility that long-term MBET in chronic SCI patients will rescue from hyperreflexia once it has set in, and also produce significant savings in normalization of reflexes if carried out for long periods of time. We will also test the possibility that MBET in acute and/or chronic SCI patients could reduce or prevent muscle atrophy. The experimental design calls for assessing muscle mass using MRI scans, bone density using Dual-Energy X-ray Absortiometry (DEXA) scans, spasticity measures and electrophysiological measurements to determine low frequency habituation of the H-reflex. Assessments will be carried out before MBET, during a 25 week MBET block of time, and during a 12 week post MBET monitoring period. Changes in muscle mass, bone density, spasticity scales and H-reflex habituation will be compared across these interventions and between treated SCI victims and a group of control acute and chronic SCI victims undergoing standard of care during the same period.

The purpose of this study is to determine if tetraplegic individuals with incomplete spinal cord injury (SCI) who remain unable to move their arms normally 1 year after their SCIs are able to sense and move the affected arm(s) better after 10-13 weeks of treatment with a new robotic therapy device. The hypothesis is that using the AMES device on the arm(s) of chronic tetraplegic subjects with incomplete SCI will result in improved strength, sensation, and functional movement in treated limb(s).

This research study will test to see if people who receive pregabalin after their spinal cord injury will develop less nerve damage pain than people who do not receive it.

This research investigates the use of autologous bone marrow stem cells in patients with spinal cord injury.

Regular exercise is strongly recommended to help maintain a healthy lifestyle. Unfortunately, children and young adults with damaged spinal cords may not be able to exercise regularly. However, there is an exercise bike specially designed for persons with damaged spinal cords that enables them to pedal by directly stimulating the muscles in their legs. Our study is designed to determine the benefits of exercise for Spinal Cord Injured (SCI) patients using this bike.

The investigators want to know if placing a tube through the skin and into the colon to flush out the colon is safe and effective in helping spinal cord Veterans with bowel management.

The aim of this investigation is to determine the blood pressure response to NOS inhibition, with L-NAME, in persons with tetraplegia compared to non-SCI control subjects and to establish if blood pressure can be increased while upright in those with tetraplegia. If blood pressure is increased with NOS inhibition in persons with tetraplegia, this would improve our treatment of the condition of low blood pressure during seated postures in individuals with tetraplegia.

The purpose of this study is to determine the effect of oxandrolone on the function and quality of life of patients with chronic spinal cord injury.

The purpose of this study is to collect data comparing two means of providing locomotor training: manual and robotic and the possible differential effects it may have on walking ability for persons with spinal cord injury (SCI).

The purpose of this study is to determine whether HP184 is effective in the treatment of chronic spinal cord injury (CSCI).