View clinical trials related to Spinal Cord Injury.
Filter by:This is a double-armed, Phase I/II trial aims to compare bone marrow and leukapheresis as sources for purified, autologous CD34+ and CD133+ stem cells (SCs), to be utilized in treatment of patients with chronic complete spinal cord injuries (SCI). The study focuses on the safety and efficacy of transplanting un-manipulated, autologous, purified stem cells into the injured spinal cords of patients.
The aim of this proposed PhD study is to test the effectiveness of a newly developed coping-oriented supportive programme (COSP) for Chinese people with SCI during their early period of inpatient rehabilitation in Xi'an, China. The objectives of this study are to develop and validate the COSP in the inpatient rehabilitation hospitals; and to evaluate the effectiveness of this COSP for the SCI inpatients in two rehabilitation wards on their coping abilities, self-efficacy, mood status, and life satisfaction, when compared to those receiving routine care in another two rehabilitation wards. This proposed PhD study is a quasi-experimental study, using repeated-measures, comparison group design. The study will be conducted in two rehabilitation hospitals in Xi'an, China. There will be 50 patients in each of the two study groups (i.e., one intervention and one comparison group). The intervention group will receive the COSP including 8 weekly sessions, and the comparison group will receive usual rehabilitation care in brief didactic group-based education. Outcome measures will be examined at baseline and immediately, 1- and 3-month after completion of the interventions. The primary outcomes of this proposed study are coping ability and self-efficacy, while the secondary outcomes include mood status, life satisfaction, and pain. All data will be analysed using SPSS for Windows, version 21.0. Descriptive statistics will be employed for demographic and disease-related data and outcome scores. Data analysis for intervention effects will be based on both Per-protocol (PP) analyses and Intention-To-Treat (ITT). The missing data will be handled by the Last Observation Carried Forward (LOCF) strategy. Inferential statistics will be conducted for between-group and within-group comparison with specific considerations with the measurement level of the data and the fulfillment of the statistical assumptions of parametric or non-parametric tests, and further consider to use multivariate analysis of covariance (MANCOVA) or the analysis of covariance (ANCOVA).This study will provide evidence on the clinical effectiveness of the coping-oriented supportive programme in improving patients' psychological adjustment to SCI during earlier stage of inpatient rehabilitation, enhancing their psychosocial adaptation to the illness and subsequent life satisfaction and hence, integrating this psychosocial intervention into the conventional treatment and SCI rehabilitation practices.
Background Veterans with spinal cord injury (SCI) have many adverse secondary medical and quality of life (QOL) changes as a result of immobilization. Veterans with SCI who have completed rehabilitation after injury and are unable to ambulate receive a wheelchair as standard of care (SOC) for mobility. Powered exoskeletons are a technology that has recently become available as an alternate form of mobility by providing an external framework for support and computer controlled motorized hip and knee joints to assist with over ground ambulation.
The purpose of this randomized controlled study is to evaluate psychological variables, mindfulness, and pain in the context of a specialized yoga program for individuals with SCI. Participants will be randomized to either a wait-list control condition or to a specialized yoga program condition.
This is a randomized, experimental study that examines the physiology of central nervous system pathways contributing to the control of bilateral movements in individuals with spinal cord injuries and promotes the recovery of lower-limb motor function through the use of stimulation and locomotor training.
The purpose of this study is to determine how mild breathing bouts of low oxygen may restore walking and leg strength in persons who have sustained a spinal cord injury.
There is a high prevalence of vitamin D deficiency in Switzerland. In indoor-athletes as well as wheelchair users, vitamin D deficiency occurs even more often. It is well established that vitamin D deficiency has a negative effect on health. However, vitamin D supplementation in individuals with a vitamin D deficiency has a positive effect on muscle performance. In recently published studies with able-bodied subjects, it has been shown that a normal vitamin D level (>75nmol/L) can only be achieved with a high-dose supplementation of vitamin D. The aim of this study is to examine the effect of vitamin D supplementation on exercise performance in wheelchair athletes with vitamin D deficiency . All participants with a vitamin D deficiency are assigned to the intervention group and treated with 6000 IU of vitamin D3 daily over a period of 12 weeks. All participants who have a normal vitamin D level will receive placebo treatment (control group). The physical performance is measured three times at baseline, after six weeks and 12 weeks. The measurements include a Wingate and a dynamometer test.
Non-invasive brain stimulation has gained increasing popularity and research support over the past several years. Recent research indicates that it might have benefits for improving hand function in people with spinal cord injury. The purpose of this study is to evaluate the effects of a type of non-invasive brain stimulation, known as tDCS, on hand function.
Currently, those with spinal cord injury (SCI) demonstrate increased prevalence of obesity (75%) cardiovascular disease (30 - 50%), type II diabetes (21%) and osteoporosis in the legs (100%) when compared to the general population. It is important to identify the modes and intensities of exercise most likely to generate a reduction in these inactivity-related diseases in this population. Therefore, the main purpose of this pilot research project is to implement and test a form of a spinal cord injury-specific exercise, known as FES rowing (FES: functional electrical stimulation).
This is a feasibility study to test the use of epidural stimulation to restore volitional function previously lost due to spinal cord injury. Previous studies conducted in animal models, performed elsewhere and here at Mayo Clinic, have shown that direct electrical stimulation of the spinal cord increases the excitability of spared neuronal connections within the site of injury, thereby enhancing signal transmission and allowing recovery of previously lost volitional function. Recently, epidural electrical stimulation of the lumbosacral spinal cord in four individuals with spinal cord injury (SCI) has restored motor and autonomic function below the level of injury. Despite positive results, further translational research is needed to validate these findings. The goal of this proposal is to perform epidural stimulation to restore volitional function in patients with SCI. In two patients, we will implant an epidural stimulator onto the dorsal aspect of the lumbosacral spinal cord dura mater. Patients will undergo a structured program of daily physical rehabilitation, treadmill step training, and epidural stimulation to recover motor, sensory, and autonomic function.