View clinical trials related to Spinal Cord Injury.
Filter by:The purpose of this study is to confirm the security, and detect the effect of the local administration in damaged nervous tissue, of autologous bone marrow stromal cells.
This study is to determine if non-invasive electrical stimulation of the spinal cord can help improve hand and arm function in people with paralysis who suffered a cervical spinal cord injury.
This study will enroll 10 adults with a chronic spinal cord injury. The investigators will image their damaged motor tracts using MRI tractography scanning, and the investigators will formally assess their ASIA motor level at the outset of the study. Then, the investigators will treat them with one year of 'over the counter' dosage of selenium and vitamin E. These are two vitamins known to be anti-oxidants. After one year the investigators will repeat the MRI scans and ASIA assessments to determine if their has been any change in the appearance of motor tracts on MRI tractography, or in motor level on ASIA exam. As this is a pilot study the investigators are primarily concerned with establishing safety of this intervention, with a view to conducting a larger and more rigorous controlled trial in the future. The investigators also have a small hope that in fact some improvement might be found with vitamin treatment.
The aims of this study are to assess the effects of medium versus high intensity 12-week adjusted training programs on physical capacity in persons with incomplete SCI, early after discharge from primary rehabilitation, and to investigate if the training program induces a more active lifestyle in terms of increased daily energy expenditure.
People with a spinal cord injury (SCI) characteristically have low levels of high-density lipoprotein-cholesterol (HDL-c; "good cholesterol") and high levels of low-density lipoprotein-cholesterol (LDL-c; "bad cholesterol"), and are at a higher risk of developing cardiovascular health problems, such as heart disease, heart attack and stroke, than the able-bodied population. A common way for able-bodied people to improve their lipid profile is through exercise; however, SCI people, especially tetraplegics, are often unable to achieve and maintain a level of exercise needed to obtain these benefits. It is therefore clinically important to find an effective, safe and inexpensive method of increasing HDL-c levels in people with chronic tetraplegia. This study will investigate the effects of omega-3 fatty acid supplementation on the lipid profile of people with tetraplegia. The investigators hypothesize that 5 months of daily consumption of high doses of omega-3 fatty acids will increase plasma levels of HDL-c in those with tetraplegia, leading to decreased risk of cardiovascular health issues.
Background: The presence of orthostatic hypotension (OH) as a consequence of blood volume redistribution during verticalisation in persons with spinal cord injury (SCI) is a common condition. Aims: To investigate the impact of three different types of electric stimulation (ES) (ES of the abdominal muscles versus ES of lower limb muscles versus simultaneously ES of abdominal and lower limb muscles versus control) on blood pressure stabilization and verticalisation-degrees between 0° and 70°. The hypothesis is, that the ES-induced contractions of the muscles cause a stabilisation respectively an increase of the blood pressure during the tilt-table test. Subjects: 20 Women and men, at least 18 years of age, following an acute and traumatic SCI, with a lesion level above T6, an American Spinal Injury Association (AIS) Impairment Scale A,B or C and a diagnosis of OH (by tilt table test) were eligible for the study. Methods: Each patient underwent randomly three different types of ES sessions while being positioned on a tilt-table. The following sessions were planned: A) ES of the abdominal muscles B) ES of the lower limb muscles C) Combination of A and B D) Control session (=diagnostic session) Study type: Intervention Design: Prospective interventional study
The deleterious effects of hyperthermia are well appreciated in able-bodied persons. However, the consequences of impaired regulation of normal body temperature on cognitive performance of persons with tetraplegia is not known. This study will provide the preliminary findings necessary for future work to design and explore physical and medical interventions to improve temperature regulation in those with tetraplegia with the goal of improved clinical care, health, and quality of life. The proposed study consists of 1 visit during which 20 subjects (10 with tetraplegia, 10 controls) will be exposed to 81°F for 40 minutes and then 95° F for up to 2 hours. Physiological as well as psychological processes will be monitored in all subjects during the study for safety and to determine differences in responses to exposure to hot ambient temperatures
The investigators propose to test the feasibility of iSHIFTup (Internet Skin Health Intervention For Targeted Ulcer Prevention) for adults with spinal cord injury (SCI) to prevent serious pressure ulcers (PrUs) and promote protective health behaviors. This protocol is Phase 2 of a three phase project. In Phase 1, the investigators developed iSHIFTup. In Phase 2, the investigators will test the intervention by partnering with Woodrow Wilson Rehabilitation Center (WWRC) to conduct a randomized controlled trial (RCT) of 18 participants. In Phase 3, the investigators will focus on optimizing the intervention based on our outcome findings and feedback, sustaining the program at WWRC, and seeking future funding for a larger RCT. The investigators will conduct an RCT of up to 18 participants (9 participants in treatment as usual (TAU) group, 9 participants in TAU + iSHIFTup intervention group) (18 participants are needed to obtain statistically significant results). The investigators will meet with potential participants in-person to complete the informed consent process and confirm eligibility. Participants in the TAU+iSHIFTup group will use the program during the study period. Participants randomized to TAU will have usual treatment during the study period and an opportunity to use the program following trial participation. The investigators will collect information from participants at two times during the study, at enrollment and post-intervention at 6-weeks (42 days). The investigators will also collect qualitative information from participants in the TAU+iSHIFTup group, during an optional focus-group setting, to learn users' experiences with the program. The investigators expect participants in the TAU+iSHIFTup group as compared to the TAU group, to display greater awareness of personal risk for pressure ulcers; increased preventive behaviors; and increased skin care self-efficacy and knowledge.
Spinal cord injury neuropathic pain (SCI-NP) is a common problem, and when severe, is one of the most problematic of secondary conditions that is minimally to modestly responsive to currently available treatments. It is usually described as burning or stabbing, and is located at or below the level at which their sensation changes from normal to impaired; persons with no feeling at all in their legs for example can experience pain in the legs. The purpose of this project is to further investigate the use of a novel visual stimulation treatment; a technique that has shown benefit in other populations with chronic pain secondary to deafferentation. To accomplish this, a novel treatment - virtual reality (VR) walking - will be examined. Should this treatment show benefit, a portable, accessible means of treatment will be available for persons with SCI and for whom transportation to health care providers is often difficult.
- Patients with spinal cord injury (SCI) usually breathe without any mechanical assistance, but significant breathing problems occur often during sleep, either because the upper airway closes (obstructive sleep apnea; OSA), or because of weakness/paralysis of the breathing muscles. These problems often go unrecognized, as SCI patients face logistical barriers that cause them to refuse appropriate testing in sleep laboratories. We have devised a strategy for diagnosing sleep-disordered breathing in the patient's home, using placement of noninvasive devices that monitor breathing overnight. This project is designed to test the feasibility and utility of this strategy. - After collecting baseline data on symptoms and medical events for four months, the home-based studies are performed noninvasively with FDA-approved devices: a type III sleep system and a recording oxygen saturation/ transcutaneous carbon dioxide monitor. If these studies identify sleep-disordered breathing, noninvasive ventilatory support is prescribed according to standard clinical practice. Over the following twelve months, the subjects monitor their symptoms daily, and answer quality-of-life questionnaires every three months. After 3, 6, and 12 months, blood tests are performed to measure blood sugar and cholesterol/lipids. Data is downloaded from the ventilator device to monitor compliance and ventilator performance. This study is designed to determine the prevalence of sleep-disordered breathing in SCI, the feasibility of home-based testing to establish the diagnosis, and the short term effects on symptoms, quality-of-life, and associated conditions (glucose intolerance, blood lipid disorders).