View clinical trials related to Spinal Cord Injury.
Filter by:The study will compare outcomes between individuals with sub-acute, ventilator-dependent tetraplegia using high (20 cc/kg) vs. low (10 cc/kg) tidal volumes during mechanical ventilator support.
The purpose of this study is to test the effectiveness of newly designed ergonomic manual wheelchair handrims called the Natural-Fit and PalmRim when compared to a new standard handrim. It is our hope that the new design of the handrims will help reduce upper extremity pain and injury, which is very common among manual wheelchair users. The Natural-Fit handrim was designed to directly address the shortcomings of standard handrims and to improve the standard-round tube handrims which were designed over 50 years ago. The PalmRim was designed for individuals who have limited hand function, making it difficult to grasp standard handrims.
Electrical stimulation (pulses of electricity applied over the skin of your wrist) and activity-based hand exercise have been shown to improve motor skill and strength in individuals with stroke and have recently been shown to also have an effect on individuals with spinal cord injury. Therefore, the purpose of this research study is to investigate whether electrical stimulation alone or electrical stimulation followed by activity-based training produces gains in pinch strength (how hard you can squeeze your thumb and pointer finger together) and upper extremity function (how well your arm and hand can perform activities) in individuals with spinal cord injury.
This proposal investigates the hypothesis that progressive aerobic exercise with Lokomat is feasible in people with motor incomplete spinal cord injury, and three months of training will improve cardiovascular fitness and gait functionality when compared to physical therapy controls
To assess the level of improvement in voiding function after lumbar to sacral ventral nerve re-routing procedure in Spinal Cord Injury and spina bifida patients
The purpose of the research is to determine whether we can get harmless bacteria to live in the bladders of persons with spinal cord injury who practice intermittent bladder catheterization. We will also look at whether having the harmless bacteria in the bladder prevents urinary tract infections from occurring.
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 goal of this project is to evaluate the Smart Wheelchair Component System (SWCS) for power wheelchairs and the Smart Power Assistance Module (SPAM) for manual wheelchairs in realistic indoor environments with target users performing realistic tasks. We will combine group trials involving individuals who have a visual impairment (but do not have a mobility impairment) with several single-case studio involving individuals who have a visual and mobility impairment. Our long-term objective is to provide independent mobility to veterans with mobility and sensory impairments.
The purpose of this study is to modify and develop measures that reflect outcomes that are relevant to recovering Veterans and are sensitive to improvements resulting from innovative gait interventions.
As clinicians, it is often a struggle to find effective pain control for a certain subgroup of patients with tetraplegia. These patients often have severe upper back, neck, and shoulder pain, limiting rehabilitation productivity and potential, and always limiting quality of life. This pain appears to be primarily musculoskeletal. Muscles in the upper back and neck become shortened, rock hard, and extremely tender with even the slightest touch or stretch. Refractory to multiple classes of medications, modalities, and other treatments, patients truly suffer-not only from pain, but from fatigue, sedation, expense, and loss of useful rehabilitation time due to attempted remedies. Unfortunately, this subgroup of patients is not small and the problem is significant, as anyone who specializes in the treatment of spinal cord injury patients will recognize. In search for another form of treatment, botulinum toxin A (BTXA) may be promising for pain control in that group of patients with tetraplegia whose pain has proven to be refractory to treatment. It did not take long searching the literature to find compelling evidence that BTXA may have another mechanism of action for direct pain control, apart from its well known mechanism for spasticity control. Clinically, it is increasingly being recommended and used for this purpose. In fact, one of the specific indications now recognized by most for BTXA treatment is for myogenic pain due to short, tight, strained muscles-just as we see with our population. Yet, it's application has not been studied in people with tetraplegia. Thus, the genesis of the project and the hope to help our patients evolved. Study hypotheses: - In addition to traditional treatments used for pain control, injection of BTXA into cervical and upper back muscles will effectively reduce cervical/shoulder pain severity reported by individuals with cervical spinal cord injuries, regardless of the etiology of pain. - Pain reduction secondary to the use of BTXA will be associated with a decrease in total analgesic medication use among SCI patients during acute inpatient rehabilitation. - BTXA to treat cervical/shoulder pain will increase active participation in the rehabilitation program for individuals with tetraplegia during inpatient rehabilitation.