View clinical trials related to Spinal Cord Injuries.
Filter by:This study aimed to investigate the efficacy and safety of extracorporeal shockwave therapy (ESWT) for upper extremity pain related to spasticity in patients with spinal cord injury.
The purpose of this study is to evaluate the possibility to use electromyography in acute phase after a traumatic spinal cord injury to measure quantitatively and objectively the bulbocavernosus reflex. This study also aims to determine if there is a relationship between the bulbocavernosus reflex and neuro-functional recovery 3 months after a traumatic spinal cord injury. To do so, 20 patients admitted for acute traumatic spinal cord injury will be recruited prospectively. Within 72 hours post-trauma, the bulbocavernous reflex of all participants will be assessed according to the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI) and by electromyography. Neurological improvement during the rehabilitation process and functional status at 3 months following the traumatic spinal cord injury will also be assessed.
Robots are commonly used in many settings to help with transportation needs, reduce human injuries, and assisting clinicians during surgeries. These applications could provide direct benefits to patients in the clinical rehabilitation field. In this study, the feasibility of 2 CARE robot prototypes in facilitating dependent transfers and assisting patient mobility in their daily living activities will be studied.
Up to 25 individuals living with chronic incomplete spinal cord injury (iSCI) who can stand but have limited ability to elicit a step without physical assistance or upper limb (U/L) support will be recruited for this study. The first objective of the study will aim to investigate the orthotic effect (i.e., immediate effect) of FES on the reactive stepping response. The second objective is to investigate the therapeutic effect of a novel balance intervention, perturbation-based balance training (PBT) combined with FES (i.e., PBT+FES) on reactive stepping ability, measures of postural sway during quiet standing (i.e., biomechanical measures), and scores on clinical measures of balance and walking.
A well-managed bowel program is an essential part of daily life for many people with a SCI. Nevertheless, constipation is frequently reported (42-95%). Constipation embraces a spectrum of harms including both physical & psychological distress. Initial exploratory studies suggest abdominal FES may be useful for decreasing overall bowel management time, decreasing colonic transit time and reducing discomfort. The current study will seek to reproduce previous findings in a 12 week study, using overall bowel management time as a benchmark for establishing proof of principle. The study will include 36 people with a spinal cord injury aged 18 and over with an above T12 injury, a complete or incomplete lesion in a medically stable condition, one year or more after injury. Participants will be randomised into two groups. One group will receive abdominal electrical stimulation and the other group low dose abdominal electrical stimulation. Participants will be asked to keep a bowel diary and complete questionnaires examining quality of life and bowel management.
Up to 15 individuals living with chronic SCI will be recruited for this study. Each participant will complete an initial clinical assessment before starting a 10-week training program. The training program will consist of three 45-minute Whole-Body Electrical Muscle Stimulation (WBEMS)-augmented exercise training sessions for 10 weeks. At each training session, all adverse events (pain, redness, injury, etc.) will be recorded along with participants' comments concerning comfort (i.e. Objective 1). The investigators hypothesize that the use of a WBEMS will result in no serious adverse effect during and following the training sessions and that it will take less than 10 minutes to don and doff the suit. At the fifth session, after participants have had the opportunity to become familiar with the WBEMS intervention, the immediate effects of the intervention on physiological responses will be assessed (i.e. Objective 2). It is hypothesized that during a single training session consisting of WBEMS and exercise, physiological responses and energy expenditure (EE) will be significantly improved in participants with SCI compared to a training session consisting solely of exercises without WBEMS. At the end of the training program, participants will complete the final clinical assessment to evaluate the therapeutic benefit of the WBEMS-augmented exercise intervention (i.e. Objective 3). Three months after the end of the training program, the participants will be asked to complete a semi-structured interview and questionnaire to evaluate the perceived benefits of the training program (i.e. Objective 3).It is also hypothesized that participants will perceive benefits of the 10-week training program such as decreased spasticity, increased energy and improved mood.
The overall purpose with this clinical trial is to, monitor and secure ROBERT®'s clinical performance and safety in a clinical environment in the regional hospital North Denmark, Neuro Unit North. The purpose of the study is to investigate if ROBERT® has the ability to 1. Perform guided active training. 2. Perform resistance based active training. And validate the safety of ROBERT® in a clinical environment.
Establish if change from the baseline in ultrasound muscle parameters over 2 months of rehabilitation correlates with functional status of SCI patients at the end of rehabilitation
This research study is being done to test a new device developed for spinal cord injury (SCI) patients. The purpose of this study is to collect data on how the nervous system signals travel within the spinal cord of SCI patients. Once the investigators understand that, they hope to develop a device that may help rehabilitation of SCI patients so that they can regain function in their lower limbs. This study involves some imaging studies (e.g. X-rays etc.), surgical implantation of a portion of the electrical stimulation device, various assessments of body function (e.g. balance, movement, gait), and physical rehabilitation procedures. What is new and experimental is the stimulation/sensing device (Intelligent Spine Interface - Commercial, ISI-C) that will be implanted.
This monocentric descriptive study addresses feasibility, safety and benefits of using a specific suspension walking device for patients with severe neurological injuries in the neuroICU of Montpellier University Hospital, France. Analyzes are retrospective on data collected prospectively during standard practice. All adult neurological patients hospitalized for > 48 hours and requiring mechanical ventilation from January 2018 to January 2019 are included, and divided into two groups: beneficiaries of suspension walking during the ICU stay, and non-beneficiaries. Characteristics of the two groups are compared and reasons for not using suspension walking recorded (feasibility). After pooling all suspension walking sessions, changes in clinical parameters during sessions and occurrence of adverse events are described (tolerance).