View clinical trials related to Spinal Cord Injuries.
Filter by:The purpose of this study is to evaluate safety of Deep Brain Stimulation (DBS) of the lateral hypothalamus (LH) and whether the use of DBS can increase motor performance in patients with chronic spinal cord injury (SCI). The hypothesis, based on preclinical findings, is that DBS of the lateral hypothalamus can acutely augment leg motor function after SCI, and that the use of lateral hypothalamus DBS can be an adjunct during rehabilitation to promote recovery and long-term neuroplasticity.
Functional Electrical Stimulation is an established technique in which small electrical impulses are used to cause a contraction in muscles and thereby enable movement, in people with neurological or musculoskeletal problems who are unable to undertake those movements themselves. People with spinal cord injuries of the neck at C5, C6 and C7 account for 35% of all spinal cord injuries. Despite this, there is only one commercial FES (Functional Electrical Stimulation) based orthosis currently available. Even that has limitations in that it as it has a single size rigid exoskeleton it does not fit all people who could benefit and also due to its rigidity it does not allow people with lower injuries to utilise any remaining tenodesis grip. As a result, it is not widely used within the spinal injured communities. Therefore what is required is a more flexible system that can benefit a larger number of people whilst still being affordable within the constraints of the NHS. A previous INSPIRE funded project, TETRAGRIP I demonstrated that a surface FES system controlled by an inertial sensor, measuring movement of the opposite shoulder, could meet this specification and was successfully tried on two people with tetraplegia. What is now required is a more detailed study in which the principle components of that system are incorporated into a practical device suitable for use at home without clinical supervision. It is therefore proposed to develop and build such a system and to conduct extended home based trials in three people with tetraplegia.
The primary objectives of this study are to: (1) determine the longitudinal course and impact of injury-related injustice appraisals among civilians and Veterans who have recently acquired a spinal cord injury (SCI), and (2) use qualitative inquiry to gain a rich, contextual understanding of appraisals of injustice during the first year after acquired SCI. The long-term goal of this research is to inform the development of new treatment approaches targeting appraisals of injustice.
The prevalence of obstructive sleep apnea (OSA) is a significantly higher in people after spinal cord injury (SCI) than in the general population. As a positive pressure therapy (CPAP) is often poorly tolerated, a mandibular advancement device (MAD) can be used for the treatment of OSA. The purpose of this study is to determine the efficacy of MAD in people with SCI and to verify their adherence to the therapy.
To construct and validate a software to recognize scar for patients with chronic SCI based on multimodal MRI.
To develop a self-administered tool for assessment of sacral sparing after spinal cord injury (SCI) and to test its validity in individuals with SCI.
This study in order to best tidal volume mechanical ventilation in patients with cervical spinal cord injury (sci) as the research point, through higher low volume Settings to find the difference of two groups of patients to prevent the incidence of hypoxemia, to find suitable Settings, tidal volume in patients with lower mechanical ventilation in patients with cervical spinal cord injury (sci) the incidence of pulmonary complications, live less intensive care unit (ICU).
Aim of the study is to assess the psychometric properties of the International Standards for Neurological Classification of Spinal Cord Injury in subjects with non traumatic lesions.
This study will determine if the implementation of a home-based telehealth high intensity interval exercise-training (HIIT)program can significantly improve cardiometabolic health and physical function in a cohort of individuals with longstanding spinal cord injury (SCI). Results from this study will determine feasibility, overall enjoyment, and health impact of implementing a home-based telehealth HIIT program in individuals with SCI.
QUESTION. Does duroplasty improve outcome after spinal cord injury? WHAT DO WE STUDY? We will investigate whether performing a surgical procedure called duroplasty improves outcomes after spinal cord injury. WHY SPINAL CORD INJURY? Spinal cord injury is a devastating condition that causes permanent disability such as paralysis, numbness and loss of bladder and bowel control. Currently, there are no treatments shown to improve outcome after spinal cord injury. WHAT IS DUROPLASTY? Duroplasty is an operation that involves opening the tough membrane around the cord, called the dura, and stitching a patch of artificial dura to expand the space around the swollen cord. WHY IS DUROPLASTY BEING STUDIED? Based on our preliminary evidence, we think that the dura causes cord pressure after injury. We have shown in a small study of patients that performing this operation safely and effectively reduces pressure on the injured cord. WHO IS ELIGIBLE? Adult patients with severe spinal cord injuries in the neck who will have surgery within 72 hours. WHAT TREATMENT? Those who agree to take part will be allocated by chance (like tossing a coin) to standard treatment or standard treatment plus duroplasty. Some patients will also be asked to take part in a smaller study that involves placing probes at the injury site. WHERE? We will recruit patients from U.K. Major Trauma Centres. Most assessments will be done in U.K. Spinal Injury Centres. Later on, we may recruit from overseas. HOW LONG? We aim to recruit 222 - 260 patients over 4 years. Patients will be followed up for a year. WHAT DO WE ASSESS? Patients will be assessed (using questionnaires and by examination) how well they can use their hands, walk, control their bladder and bowel and their quality of life. Some of these assessments will be repeated at 3, 6 and 12 months after surgery. WHAT IS THE OPTIONAL MECHANISTIC STUDY? DISCUS includes an optional study for at least 50 patients who will take part in the randomised controlled trial. The aim of the mechanistic study is to determine how duroplasty improves outcome, i.e. whether duroplasty reduces cord compression, improves blood flow to the injured cord perfusion, improves cord metabolism and reduces cord inflammation. WHAT IS THE OPTIONAL INFORMATION STUDY? For the first two years, a study called QuinteT Recruitment Intervention (QRI) is designed to optimise patient recruitment and informed consent in the trauma setting.