View clinical trials related to Spinal Cord Injuries.
Filter by:For children who use a power wheelchair, a powered wheelchair standing device (PWSD) may be considered for daily use. A PWSD allows a child to electronically move between sitting and standing and can be driven in either position. Existing published PWSD research in pediatrics is limited to boys with Duchenne muscular dystrophy (DMD).(1, 2) While these studies provide some insights into PWSD use in boys with DMD, they do not reflect PWSD use in children with other conditions. The purpose of this exploratory study is to determine the feasibility of a research protocol exploring use of a PWSD in children who have neurodevelopmental conditions other than DMD.
The aim of the study is to investigate the effectiveness of a new rehabilitation technology for paralysis that occurs after stroke or spinal cord injury. The research will jointly use a prototype neurorehabilitation orthosis, in which a robotic device moves a paralyzed arm at the command of a non-invasive brain-computer interface to perform a game life-like task augmented using a virtual-reality display, as well as an electrical stimulation device that activates the spinal cord and/or muscles of the paralyzed arm. Investigators expect that a portion of the patients participating in the study will have an improvement in arm mobility by the end of the study. Participants who express their special written consent will have venous blood tests conducted three times for subsequent analysis of lipid biomarkers, in order to further evaluate the effectiveness of rehabilitation methods based on biochemical analysis.
The HemON study aims to evaluate the safety and preliminary efficacy of ARC-IM Therapy (Epidural Electrical Stimulation) to improve hemodynamic management and trunk control in people with sub-acute or chronic spinal cord injury (>= 1 month post injury) between C3 and T6 inclusive, who suffer from orthostatic hypotension.
This study examines the immediate and long-term effects of lumbosacral TENS on spasticity and residual voluntary force control in spinal cord injury in comparison to no TENS. Participants in the intervention group will receive 2 months of TENS. Participants in the control group will receive TENS after a 2-month delay. Modified Ashworth score and pendulum test will be used to assess spasticity and force control. Electrophysiological measures will be used to assess the activity profile of motorneurons.
The objective of the proposed work is to determine whether administration for 12 months of romosozumab followed by 12 months of denosumab will maintain bone mass at the knee in subjects with subacute SCI compared to 24 months of denosumab administration alone.
The aim of this pilot study is to explore the association of changes in pain perception with changes in brain activity (functional Magnetic Resonance Imaging (fMRI)) and metabolic (Magnetic Resonance Spectroscopy (MRS)) patterns of individuals with SCI and chronic NeP after a Virtual Walk (VW) therapy. The brain activity patterns will be assessed in resting state and under a specific task, before and after a VW training program, done as part of the clinical routine, as well as at a four weeks follow-up. The results of this pilot study will serve as basis for a bigger project that aims to investigate and compare brain activity and long-term effects of non-immersive VW therapy on chronic NeP in individuals with SCI (traumatic SCI with chronic NeP at- or below level, complete or incomplete) taking into account confounding factors such as time since injury, level of injury and type of NeP.
The availability of symptom monitoring and self-management (SMSM) interventions is especially important for civilians and military populations with spinal cord injuries (SCI). High rates of depressive disorders (20-40%) and anxiety disorders (20-25%) have been found in both civilian and military populations and are significant contributors to both quality of life and well-being after SCI. Previous self-management interventions targeting physical activity and self-reliance in individuals with SCI have demonstrated significant health and lifestyle benefits. However, it has been shown that the injured individual's psychological outlook and mood can either enable or hinder self-management efforts and that currently available SCI-specific self-management programs may be inadequate. Developing interventions to reduce mental health symptoms following SCI is therefore critical to improve the lives of individuals, alleviate resource strain on military and civilian health care systems, and potentially reduce the rate of mortality by suicide in Veterans and civilians living with SCI. The current study will build on prior work developing an intervention platform to assess the effectiveness of this eHealth SMSM system and will test the feasibility and effectiveness of the intervention platform.
"Spinal cord injury (SCI) is a dramatic event resulting in a long-term handicap. Appropriate care from admission to the intensive care unit (ICU) is a key element not only for the survival of these patients but also to promote their recovery. Moreover, the studies on natural history of SCI have shown that most of the recovery occurs within the first 3 to 6 months post-injury. This period is therefore crucial for these patients. However, the environment of the ICU and the acute condition of the patients limit the rehabilitation possibilities. In such a context, functional proprioceptive stimulations (Vibramoov™ system, Techno Concept, France) could be a tool of interest. By using tendon vibrations, the Vibramoov™ system allows to reproduce the proprioceptive signatures of cyclic movements such as walking. Some studies have already demonstrated the benefits of proprioceptive vibrations. However, so far, these benefits have only been studied at the chronic stage of neurological diseases. The investigators hypothesized that early functional proprioceptive stimulations (FPS) may reduce spasticity and promote sensorimotor recovery in tetraplegic and high paraplegic patients. To test their hypothesis, the investigators conduct a randomized controlled trial on 40 patients with traumatic SCI. These patients will be stratified into two groups according to the completeness of their lesion. Every patient will be included within ten days post-injury and receive either FPS, either sham stimulations to the joints of the lower limbs, 4 times a week during 8 weeks. the primary outcome measures will assess spasticity. the investigators also assess sensorimotor recovery, pain, muscle wasting, cognitive impairment and functional status. "
The purpose of this study is to validate the capacity of a reflex training system to change the size of the targeted reflex. For this, the researchers are recruiting 25 individuals with chronic incomplete SCI who have spasticity in the leg to participate in the reflex training procedure. The study involves approximately 45 visits with a total study duration of about 6 months.
The overall purpose of this study is to test the efficacy of multi-modal training combining activity-based locomotor training and transcutaneous spinal stimulation (ABLT+scTS) to improve sitting posture and trunk control in children with a chronic spinal cord injury. The investigators will recruit 12 participants, ages 3-12 with chronic, acquired SCI, T10 and above and non-ambulatory. The participants in this study will be novices to scTS and AB-LT.