Active clinical trials for "Spinal Cord Injuries"

The purpose of this study is to investigate if a person with weakness or paralysis in one or both arms, can use the NuroSleeve combined powered arm brace (orthosis) and muscle stimulation system to help restore movement in one arm sufficient to perform daily activities. This study could lead to the development of a product that could allow people with arm weakness or arm paralysis to use the NuroSleeve and similar devices to improve arm health and independent function.

The purpose of this study is to determine if practicing mindfulness breathing exercises has an effect on the overall health of persons with SCI

In the case of spinal cord injury, patients have shown a passive attitude towards participating in leisure sports or exercise programs, and there is a lack of suitable guidelines or experience in the local community for coaching exercise and sports for spinal cord injury patients, which makes coaches feel burdened when coaching these patients. Therefore, in this study, a suitable comprehensive exercise program will be designed and prescribed for patients who reside in the local community and want to participate in leisure sports, and the effectiveness and safety of the program will be verified. Based on the results, the aim of the study is to provide evidence that spinal cord injury patients can exercise safely and confidently in the local community in the future.

The aim of this study is to evaluate the efficacy and safety of intrathecal administration of autologous mesenchymal stem cells in participants with subacute spinal cord injury.

The purpose of this study is to investigate the effectiveness of bodily illusions combined with transcranial direct current stimulation (tDCS) on neuropathic pain symptoms and sensory functions in participants with spinal cord injury (SCI) and neuropathic pain.

This is a randomized study to determine the effects of monthly romosozumab for one year or one-time zoledronic acid on bone mineral density (BMD) and biochemical markers of bone formation and resorption, in patients with spinal cord injury (SCI) and low BMD.

The goal of this clinical trial is to evaluate the impact of using the Nomad powered KAFO in people who have had a musculoskeletal or neurological injury that has affected their ability to walk. The main questions it aims to answer are to quantify the effectiveness of the Nomad in improving mobility, balance, frequency of falls, and quality of life in individuals with lower-extremity impairments compared to their own brace, over three months of daily home and community use. Participants will: Wear a sensor that records everyday activities and mobility. Perform measures of mobility and different activities of participation using their own brace. Perform measures of mobility and different activities of participation using the Nomad powered KAFO

The aims of this proposal are to: 1) investigate whether individuals with spinal cord injury (SCI) demonstrate cardiac autonomic, cerebrovascular, and cognitive dysfunctions compared to non-injured age- and sex-matched controls in the following conditions: supine rest and head-up tilt/face-cooling test; 2) examine if autonomic completeness/ incompleteness, physical activity, and psychological distress are predictors for dysfunctions during supine rest and head-up tilt/face cooling conditions in SCI individuals; 3) examine if one bout of moderate-intensity aerobic exercise temporarily improves cardiac autonomic and cerebrovascular functions and thereby improves cognition when in supine rest and head- up tilt/face cooling conditions. The study will include an initial visit and an experimental visit to our lab. Three groups of participants will be included in this study: Group 1, SCI with acute exercise; group 2, SCI with rest-control; and group 3, age- and sex-matched non-injured individuals. Cardiovascular variables, such as heart rate variability, blood pressure variability, and cerebrovascular variables, such as cerebral blood flow velocity and oxygenated hemoglobin, and cognitive performance will be examined. The investigator hypothesizes that individuals with SCI will have impaired cardiac autonomic, cerebrovascular, and cognitive functions compared to the non-injured controls, and an acute exercise can improve those functions. Autonomic completeness/incompleteness, physical activity, and psychological distress are significant factors that predict cardiac autonomic, cerebrovascular, and cognitive functions in individuals with SCI.

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.

Neuromuscular electrical stimulation (NMES) remains as one of the effective rehabilitation modalities for addressing recovery of neuromuscular function after a spinal cord injury (SCI). To achieve optimal effects, the NMES interventions that involve or promote voluntary efforts from SCI participants are preferred. However, these interventions are limited by the fact that the active monitoring of voluntary effort, particularly at the stimulated muscle level is unattainable. The objective of the proposed study is to develop SMARTq (Stimulated Muscle Assessment in Real-Time). This novel system will provide a quasi real-time assessment of intrinsic neuromuscular responses of a stimulated muscle during NMES. Specifically, the proposed system will consist of our novel algorithms interfaced with the EMG data acquisition hardware to process the EMG data recorded from a stimulated muscle in real-time during NMES. The term 'quasi' is used to account for the processing delay of approximately 1 to 2 seconds that may potentially occur. The proposed system will be developed and validated using the data collected from the able-bodied (AB) as well as individuals with incomplete SCI (iSCI). The applicability of the system will be evaluated on individuals with complete SCI (cSCI). Our central hypothesis is that the real-time tracking of neuromuscular responses during a train of NMES will provide valuable information on inherent neuromuscular changes, volitional participation, and neuromuscular recovery. The significance of the proposed study is that, if successful, it will deliver a highly novel system which can allow researchers and clinicians to - 1) evaluate the direct electrophysiological effects of varied combination of NMES on a stimulated muscle in real-time; 2) quantify, track and manipulate the levels of voluntary efforts or volitional drive 'on-fly' during NMES for extracting optimal benefits; 3) track the neuromuscular recovery of the stimulated muscle, particularly for cSCI populations, when any functional changes have not been observed yet; and 4) directly observe the neuromuscular fatigue derived from the electrophysiological data at the stimulated muscle. These are highly significant opportunities that can allow the clinicians and researchers to transform the current as well as future NMES interventions into highly effective training modalities as each intervention will be operated at an individual's neuromuscular level.