View clinical trials related to Spinal Cord Injuries.
Filter by:This clinical trial will examine the efficacy of continuous positive airway pressure (CPAP) therapy in improving psychosocial, neurocognitive and behavioral consequences of moderate-to-severe sleep-related breathing disorders (SRBDs) in people living with spinal cord injury (SCI).
The goal of this study is to assess the function of the lungs and the muscles are used to breathe after individuals receive respiratory training, spinal cord stimulation, a combination of respiratory training and stimulation, a combination of arm training and stimulation, or a combination of trunk training and stimulation. The respiratory, arm, and trunk training combined with the spinal stimulation interventions are being used to activate the spinal cord below the level of injury. Investigators will be looking for changes in the function of the lungs and trunk muscles before, during, and after these task-specific and non-task-specific interventions for breathing to determine which one has the greatest effect. The results of this study may aid in the development of treatments to help individuals with spinal cord injuries that have impaired lung, arm, and trunk function.
Umbilical cord blood mononuclear stem cells (UCBMSCs) transplant followed by the intensive locomotor training for up to 5±1 hours a day, 5±1 days a week, and for 3-6 months for treatment in patients with chronic, stable and complete spinal cord injury.
The study is designed to assess the role of functional neural regeneration collagen scaffold transplantation combined with epidural electrical stimulation in spinal cord injury patients.
Most patients with spinal cord injury (SCI) develop neurogenic lower urinary tract dysfunction (NLUTD), one of the most devastating sequelae of SCI which ultimately can lead to renal failure. We urgently need an intervention that prevents NLUTD before irreversible damage occurs. Neuromodulation procedures are a promising avenue so that we investigate the effect of transcutaneous tibial nerve stimulation (TTNS) in patients with acute SCI. This nationwide randomized, sham-controlled, double-blind multicentre clinical trial includes all SCI centres in Switzerland (Basel, Nottwil, Sion, Zürich). Patients are randomly assigned to VERUM TTNS (active stimulation, n=57) and SHAM stimulation (n=57) groups in a 1:1 allocation using computer-generated permuted block randomisation lists stratified on study centre and lower extremity motor score. Daily 30-minute sessions are performed five times a week during an intervention period of 6-9 weeks. The primary outcome of this study is the success of TTNS to prevent neurogenic DO jeopardizing the upper urinary tract, assessed by urodynamics at 1 year after SCI or any earlier time point if DO treatment is necessary (study end). Secondary outcome measures are bladder diary parameters, clinical symptom scores assessed by standardized and validated questionnaires. Furthermore, neurophysiological and neuroimaging outcome measures are assessed as well as, biochemical and molecular changes. Tertiary outcome measure is the safety of TTNS. Before the actual start of the TASCI RCT, start-up activities will include a piloting phase on groups of healthy volunteers and patients. The goal during this phase is to evaluate the feasibility of the experimental setup, in particular for the TTNS and SHAM intervention, but also to test the setup of the different pre and post assessments (e.g. neurophysiology and neuroimaging tests). Groups of up to 15 participants each will be enrolled in a few consecutive pilot studies allowing for fine tuning and small adaptations in between, if appropriate.
Background: Patient engagement is a cornerstone of patient-centered care. Studies show that an increased level of patient engagement in medical rehabilitation is associated with greater functional recovery. To achieve higher levels of patient engagement, it is important to improve therapists' techniques for goal setting and clinician-therapist communication. Thus, we have developed a manualized intervention for post-acute rehabilitation, Enhanced Medical Rehabilitation (EMR), which is an evidence-based program to increase patient engagement and achieve a greater intensity of therapy, thereby optimizing the patient's functional and psychosocial recovery. EMR is an integrated set of skills for occupational and physical therapists that transform rehabilitation through (1) a patient-directed, interactive approach; (2) increased treatment intensity; and (3) frequent feedback to patients on effort and progress. We have developed training and supervision methods to enable therapists to carry out these skills with high fidelity. In our previous EMR study of older adults in skilled nursing facilities, patients treated by EMR-trained therapists had greater engagement in therapy, higher-intensity therapy sessions, and better functional outcomes. Due to the complexity of the inpatient spinal cord injury (SCI) rehabilitation environment, it is unknown whether the EMR program will be clinically relevant to inpatient rehabilitation settings and acceptable to SCI populations. Therefore, it is necessary to conduct a systematic adaptation approach to address all hospital- and provider-level barriers, and test this adapted program to a new setting (inpatient rehabilitation) and a new population (patients with SCI), without compromising the core elements of the original EMR. Objective: We propose to adopt the EMR program for use in inpatient SCI rehabilitation settings using an implementation science-driven approach. We also propose a randomized trial of 80 patients with SCI to test the effects of EMR on improving engagement and treatment intensity, as well as functional and psychosocial outcomes over standard of care (SOC) rehabilitation. Methods: We will randomize patients into EMR or SOC groups. For the EMR group, four therapists will be trained and supervised in EMR and will incorporate EMR techniques into therapy sessions. In the SOC group, four therapists will carry out therapy sessions as usual. Expected Outcomes: With respect to EMR intervention adaptions, we hypothesize that the EMR program, including a treatment manual and other materials, will be customized with input from our Spinal Cord Injury-Community Advisory Board (SCI-CAB). Patients randomized to EMR will have greater engagement and intensity and greater functional and psychosocial recovery compared to those randomized to SOC rehabilitation. Significance: The impact is high. EMR is patient-centered rehabilitation, and it is designed for real-world clinical practice. Success in this line of research will improve therapists' skills working with patients and optimizing patient outcomes, ensuring that inpatient SCI rehabilitation is more patient-centered, to the benefit of individuals with SCI.
Bowel dysfunction is consistently rated as one of the most common complications affecting daily life for individuals with spinal cord injury. The overall objective of this study is to investigate whether the use of specific spinal cord epidural stimulation will affect bowel function. This study will also examine how alterations in bowel function influence quality of life outcomes. The results of this study may aid in the development of treatments to help individuals with spinal cord injuries that have impaired bowel function.
The purpose of this experimental therapy is to evaluate the safety and efficacy of transplantation of autologous olfactory ensheathing cells (OECs) and olfactory nerve fibroblasts (ONFs) obtained from the olfactory bulb with simultaneous reconstruction of the posttraumatic spinal cord gap with peripheral nerve grafts, in patients with chronic complete spinal cord injury. The treatment will be performed in two patients that have sustained an anatomically complete spinal cord transection between the spinal cord segments C5 and Th10. All patients wanting to participate in this study have to send their application at the address: walk-again-project.org
A randomized, repeated measures comparative design study to compare use of a micro-processor controlled knee-ankle-foot orthosis vs. traditional care knee-ankle-foot-orthosis (KAFO) models following discharge from inpatient rehabilitation.
The purpose of this study is to examine two 8-week, remotely delivered exercise interventions: Movement-to-Music (M2M) and Standard Exercise Training (SET), with 327 adults with spinal cord injury. Enrolled participants will be randomized into one of three groups: a) M2M, b) SET, and c) attention control (AC).