View clinical trials related to Quadriplegia.
Filter by:The main objective of our work is to develop and test the safety and feasibility of a home-based upper limb rehabilitation program for individuals with tetraplegia. The program will consist of simultaneous non-invasive spinal cord stimulation and immersive virtual exercises of the upper limbs, with a focus on shoulder and elbow function.
This study seeks to evaluate the efficacy of nerve transfers in restoring hand function in patients with cervical spinal injuries.
People with Spinal cord injury with tetraplegia suffer from respiratory problem due to weakness of the muscles and because the autonomic system dysfunction. Exercise is one way of preserving and improving physical fitness and directly and indirectly reduce risk factors such as insulin resistance, weight loss and low values of HDL. subjects with spinal cord injury with tetraplegia have limited options for exercise: table tennis, gym, pool and more. Because of the nature of the injury which includes the sympathetic failure, they can not easily get the desired pulse to improve physical fitness. Wheelchair rugby in Canada was developed specifically for people with tetraplegia who could not participate in wheelchair basketball. The game combines short, quick races with different aerobic capabilities. Previous studies have shown that participants in wheelchair rugby Improve anaerobic power, oxygen consumption, physical fitness and daily functioning. Wheelchair rugby improves self-confidence and as a result it affects other areas of life. Another study examined sense of self-efficacy, saw improvement in this index for rugby players in a wheelchair at high levels. In the present study the investigators aim to examine whether regular participation in wheelchair Rugby for a season has more impact than other routine exercise (table tennis, gym, swimming).
Corsets are often used in the management of patients with a spinal cord injury. They may help to rigidify the patients' trunk which might help some patients to sit upright; their use may also reduce the sensation of dyspnea some patients have while sitting upright. Due to spinal cord injury, abdominal muscles are weakened which can contribute to alter the respiratory function of the patients. But the corset by rigidifying the abdominal wall can improve the efficiency of the respiratory muscles in some patients and reduce dyspnea in the sitting position for some patients. However, when patients with spinal cord injury are followed over time, one can observe that some patients discontinue corset use. The investigators observed that the patients who pursue the corset use still have a significant improvement of their respiratory function with the corset while the patients who have discontinued the use have improved their respiratory function in the upright position (without the corset). As of now, the investigators do not know whether the use of the corset is discontinued because of a spontaneous improvement of the respiratory function or whether discontinuing the use of the corset may help to develop abdominal spasticity and therefore to improve respiratory function. The investigators seek to investigate this issue in order to optimize the management of patients who present spinal cord injury.