View clinical trials related to Spinal Cord Injuries.
Filter by:People with spinal cord injuries may experience muscle tightness or uncontrollable spasms. This study is being conducted to investigate whether transcutaneous spinal stimulation can improve these symptoms. Transcutaneous spinal stimulation is a non-surgical intervention by applying electrical currents using skin electrodes over the lower back and belly. The investigators want to see how well the intervention of transcutaneous spinal stimulation performs by testing different levels of stimulation pulse rates. Also, transcutaneous spinal stimulation is compared to muscle relaxants such as baclofen and tizanidine, commonly given to people with spinal cord injuries, to reduce muscle stiffness and spasms. By doing this, the investigators hope to discover if transcutaneous spinal stimulation similarly reduces muscle spasms and stiffness or if combining both methods works best. This could help improve treatment options for people with spinal cord injuries in the future.
The goal of this exploratory randomized controlled trial is to assess the effect of a personalized training intervention during primary rehabilitation of 6 weeks on cardiorespiratory fitness in individuals with subacute (<6 months) spinal cord injury during primary rehabilitation and during follow-up. Secondary outcomes include the effect on gait assessments, pulmonary function, neurological status, muscle force, cardiometabolic risk factors, quality of life, functional independence and self-efficacy. Participants in the intervention group will receive 2-3 personalized cardiorespiratory fitness-focused training sessions per week, for a period of 6 weeks. Participants in the control group will receive usual care.
No accepted clinical therapies exist for repair of motor pathways following spinal cord injury (SCI) in humans, leaving permanent disability and devastating personal and socioeconomic cost. A robust neural repair strategy has been demonstrated in preclinical studies, that is ready for translation to recovery of hand and arm function in human SCI, comprising daily transcranial magnetic stimulation treatment at the inpatient rehabilitation facility. This study will establish clinical effect size of the intervention, as well as safety and feasibility necessary for a subsequent controlled efficacy trial and inform preclinical studies for dosing optimization.
The goal of this feasibility study is to learn about the ability to use a different form of oxygen therapy (known as high flow oxygen therapy) in patients who have a spinal cord injury in the upper back or neck. The main questions it aims to answer are: 1. Is it possible to recruit patients to the study 2. It is possible to follow the protocol in its current format 3. What is the impact on those receiving the intervention. Participants will be randomised to receive either standard care or high flow oxygen therapy for 10 days following inclusion.
The purpose of this clinical study is to evaluate the preliminary safety and effectiveness of using a cortical recording device (ECoG) combined with lumbar targeted epidural electrical stimulation (EES) of the spinal cord to restore voluntary motor functions of lower limbs in participants with chronic spinal cord injury suffering from mobility impairment. The goal is to establish a direct bridge between the motor intention of the participant and the the spinal cord below the lesion, which should not only improve or restore voluntary control of legs movement and support immediate locomotion, but also promote neurological recovery when combined with neurorehabilitation.
This study seeks conduct a pilot study to test whether a cognitive training program can improve processing speed abilities in individuals with acute traumatic spinal cord injury.
The goal of this study is to investigate the effects of cervical epidural spinal stimulation with upper extremity training. This is an investigational study. The device used for epidural spinal stimulation (ESS) to deliver spinal stimulation is called the CoverEdgeX 32 Surgical Lead system. This device is approved by the Food and Drug Administration (FDA) for the treatment of severe pain and to manage chronic pain when other treatments have not been effective. In this study, the device is considered an investigational device because it is not approved for use in the treatment of spinal cord injury
In patients with spinal cord injury, the investigators want to understand and understand the differences in AD prevalence and characteristics according to bladder injection rate, and to determine which factors have a greater influence between bladder expansion or injection rate.
Neuralis is an innovative assistive technology designed for individuals with severe neuromuscular conditions, enabling wheelchair control through EEG signals. This study aims to assess the safety, feasibility, and efficacy of Neuralis in restoring mobility and independence. The device is a discreet EEG headset which specializes in decoding signals from visual cortex, allowing users to initiate precise wheelchair movements through focused attention. This research seeks to demonstrate Neuralis' potential in revolutionizing assistive technology by offering a non-invasive, user-friendly solution for individuals facing motor impairments, ultimately enhancing their quality of life.
The purpose of the project is to compare intensity (minutes in target heart rate zone) and steps per session across three gait training modalities, including body-weight supported treadmill training (BWSTT), overground gait training with body weight-support (BWS), and overground gait training utilizing a lower extremity exoskeleton, between patients presenting with varying functional ambulation capacities in the inpatient setting. Additionally, the researchers will compare physical therapist (PT) burden across these modalities and patient functional presentation levels.