View clinical trials related to Spinal Cord Injuries.
Filter by:This study examines safety and feasibility of a study protocol using a combination of functional electrical legcycling with voluntary armwork (hybrid training) as either skiergometer or armcycling in high intensity intervals for persons with spinal cord injury paraplegia.
The purpose of this study is to help understand how training breathing muscles will impact balance, blood pressure, and quality of life of participants with spinal cord injury.
Mono-center, open label study to investigate the safety of Neuro-Cells in 10 end stage (chronic) traumatic spinal cord injury (TSCI) patients, when administered once intrathecally. TSCI is a rare disease without cure perspectives and Neuro-Cells is an autologous fresh stem cells containing product (one batch / one patient).
The aim of this study is to translate, culturally adapt, and validate Polish versions of the NBSS, Qualiveen and SF-Qualiveen questionnaires.
The objective of this research study is to find the efficacy of trans-spinal electrical stimulation, a non-invasive neurostimulation method to modulate the functions of spinal cord neurocircuits, on improving upper-extremity functions such as reaching and grasping in individuals suffering with traumatic brain injury (TBI) or cervical spinal cord injury (SCI); and to find the physiological changes in the neuromuscular systems after this new intervention with high-resolution electrophysiology and biomedical imaging.
This project will evaluate the effects of intramuscular diaphragm stimulation (pacing) and test the hypothesis that diaphragm pacing enhances neuromuscular diaphragm activation and respiratory function in adults with cervical spinal cord injuries (C-SCIs). The investigators will test the hypothesis by recording activity of the diaphragm from intramuscular pacing electrodes and conduct respiratory assessments in adults with intramuscular diaphragm pacing electrodes following acute, traumatic C-SCIs.
The overall objective of the proposed study is to restore lower-extremity functions of paraplegic individuals. Paralysis following Stroke or spinal cord injury (SCI) result harsh sufferings including lifelong dependence on wheelchairs and thus often life threatening conditions such as pressure sore resulted from the immobility. Recently, electrical stimulation targeting the lumbosacral spinal cord has shown activation of spinal circuits that control standing and walking functions; while body-weight supported locomotor training has shown overall health improvement of the paraplegic patients through activity dependent rehabilitation. In the current project we aim to combine the trans-spinal electrical stimulation and locomotor training in an efficient, cost-effective and simplified manner for functional rehabilitation. In this proposed study, Stroke and SCI paraplegics will be regularly trained to stand and walk on a body-weight support system with the aid of lower-limb orthoses and trans-spinal electrical stimulation. In progressive weeks the orthotic support of the lower-limb would be slowly lifted off and only the stimulation therapy will be delivered during the locomotor training. Repetitive training with this combination therapy, the spinal pathways would likely reorganize and would promote long-term rehabilitation of the lower-extremity. After successful demonstration of this in our laboratory settings, we aim to transform this technology for community use.
People with higher level of spinal cord injury have limitations to using exoskeletal-assisted walking devices due to restrictions of trunk stability, functional use of the upper extremities and hand grip. With increasing sedentary time in wheelchairs, people with SCI have a high risk for developing secondary complications. A powered wheelchair has recently been developed for use in persons with spinal cord injury that provides a solution for placing the user in an upright, standing position while maintaining the overground mobility features of the powered wheelchair; providing the ability to engage in society in either a standing or seated position. The purpose of this study is to verify user performances of the upright powered wheelchair and to identify obstacles that are difficult, or prevent use. Additionally, the option to have upright posture throughout the day may have the potential to improve some of the secondary medical conditions associated with the extreme sedentary lifestyle. This study will determine change from baseline after 12 weeks of use for safety, tolerance, medical, physical and quality of life outcomes. The intervention will consist of 3.5 hours per session, 3 times per week for 12 weeks. During each session, participants will be asked to stand at least 5 minutes during every 15 minutes. To our knowledge, there is no existing empirical data on intermittent standing during the day in persons with higher levels of SCI who cannot otherwise stand and whether this approach will improve health related outcomes.
The aim of the study was to evaluate sleep quality in patients with spinal cord injury; to investigate the relationship between sleep and spinal cord level, ambulation status, spasticity, quality of life, daily living activities, depressive status, neuropathic pain
In summary, this small-scale study is designed to demonstrate that the NFX88 is safe and well tolerated, as well as preliminary evidence of improvement in the score of VAS, PD-Q, and PGIC scales.