View clinical trials related to Spinal Cord Injuries.
Filter by:Continent Cutaneous Urinary Deviation (CUD), using the Mitrofanoff, Yang-Monti or Casale principle, is offered to patients with neurological diseases who are unable to perform intermittent catheterisation through the native urethra due to upper limb disability. There is very little data in the literature examining the long-term efficacy and complications of this technique. The main objective of this study is to evaluate the effectiveness of long-term CUDs in spinal cord injury patients. The secondary objectives are to evaluate the surgical complications and the impact on the patient's quality of life. For each patient, several data will be collected and analyzed: age at operation, sex, Body Mass Index (BMI), ASA score, ASIA score, type of bladder dysfunction assessed by urodynamic evaluation, urinary abnormalities assessed by morphological examination (ultrasound and / or computed tomography) and cystoscopy, creatinine clearance, operative indications, initial mictional mode, surgical assembly and any immediate or late complications. In a second stage, a questionnaire survey will be conducted by telephone.
This study is to understand how the combination of activity-based recovery training and targeted spinal cord transcutaneous stimulation (scTS) can improve participants' ability to use their hand, arms, and core.
Between 39-67% of the 294,000 Americans who have a SCI suffer from long-term debilitating neuropathic pain, interfering with rehabilitation, general activity, mobility, mood, sleep, and quality of life. Pain can hinder any potential for functional improvement that could be obtained during rehabilitation. Yet, neuropathic pain is refractory to many treatments. Current interventions, such as medications and physical therapy, result in less than 50% reduction in pain for only about one third of the people trying them, calling for new treatment options. Qigong, a mind and body approach that incorporates gentle body movements, paired with a focus on breathing and body awareness to promote health and wellness, could reduce SCI-related neuropathic pain. If the hypothesis is supported, the resulting work could be transformative in demonstrating a potentially effective therapy for civilians, military Service members, and Veterans with SCI and neuropathic pain. The following provides the scientific basis for this hypothesis and establishes the rationale for this approach. This study also includes an optional, remote, quasi-experimental substudy, in which all participants will receive Qigong for 12 weeks, followed by 6 weeks followup.
It has been reported that 62% of all people with Spinal Cord Injury (SCI) have experienced faecal incontinence and that neurogenic bowel dysfunction (NBD) is a major sequela. As an alternative to abdominal massage or the use of suppositories, the electrical stimulation (ES) of the abdominal wall has been shown to be effective in decreasing the bowel transit time as well as decreasing constipation in children with slow-transit constipation. Due to the intrinsic nature of the guts' innervation, we expect to reproduce these positive effects in people with SCI through administration of neuromuscular electrical stimulation (NMES).
Nepal is a low-income country with over 3 million individuals with physical disabilities and currently no government-run specialist rehabilitation services. The aim of this research proposal is to work in partnership with a Nepal Non-Governmental Organisation (NGO), the Spinal Injury Rehabilitation Centre (SIRC, Nepal) to achieve the following: 1. estimate the rehabilitation needs in individuals after stroke, brain injury and spinal cord injury in rural communities after discharge from SIRC 2. hold user and stakeholder workshops to explore the role of multidisciplinary teleconferencing methods for remote assessment and management and agree systems for piloting 3. deploy and pilot a novel telerehabilitation system to improve the lives of these individuals, and evaluate it in terms of feasibility and acceptability
Objective: This study's primary objective is to evaluate the efficacy and feasibility of mechanical ventilation with high vs. low tidal volume (Vt) in people with acute spinal cord injury (SCI). Secondary objectives include a comparison of inflammatory markers between these groups. Study Design: Randomized comparative effectiveness trial Methods: Study population: Adults with acute traumatic SCI on mechanical ventilation (MV). Subjects will be randomized to receive either a lower Vt of 8-10 cc/kg predicted body weight (pbw) or a high Vt of 14-16 ml/kg pbw. Risks and potential Benefits: Risks of study interventions are similar to usual care as proposed tidal volume settings are within the current usual care range. However, people assigned to the lower tidal volume group may have a lower risk of pneumonia and respiratory complications.
This study aim to investigate the effects of anodal transcranial direct current stimulation combined with gait training for 5 consecutive session on gait performance, balance, sit to stand performance and quality of life in persons with incomplete SCI at post intervention, 1-month follow-up and 2-month follow up
The purpose of this study is to investigate whether the timing of delivery of functional electrical stimulation therapy in combination with task-specific training (FEST+TST) following spinal cord injury (SCI) influences functional and neurological recovery.
- verification of inclusion and non-inclusion criteria - information and collection of consent - standard imaging protocol prescribed as part of the usual treatment: sagittal T1 and T2 slices after injection of contrast product (Gadolinium), 3D STIR and 3D PSIR sequence. - 3D FGAPSIR sequence at the level of the cervical cord for the duration of the additional sequence is 10 minutes, for a total examination time of 40 minutes (instead of 30 minutes)
The annual incidence of traumatic spinal cord injury (SCI) is estimated at 2,500 (35 per week) in the UK and, due to advances in research and clinical management, the majority now have incomplete injuries, with significant potential for neurological improvement. Discovering ways to provide intensive, but cost-effective SCI rehabilitation is therefore increasingly important. The iCycle combines functional electrical stimulation (FES) cycling with VR cycle-racing feedback, where winning correlates with voluntary effort, to promote recovery. The aim is to improve walking in people with incomplete injuries, fundamental to independence and quality of life as well as long-term health. More intensive rehabilitative training is associated with better outcomes: the iCycle has the potential to increase intensity of exercise without additional demands on therapists' time and therefore cost. Following the encouraging results in an initial study; it is now important to find out whether recovery will continue at a similar rate if iCycle training continues beyond 4 weeks. Six volunteers with SCI will be recruited to participate in this 20 week, single-site open feasibility trial. The trial consists of an intervention phase lasting up to 12 weeks (3 iCycle sessions per week), and an 8-week follow-up phase. Outcome measures (ISNC-SCI motor scoring, Trunk Impairment scale, Walking Index for Spinal Cord Injury, 6-minute walk test, Goal Attainment Scale and TMS) will be taken every 4 weeks. The 12-week intervention phase will be separated into three 4-week blocks; at the end of each block participants may decide whether or not they wish to continue training.