View clinical trials related to Spinal Cord Injuries.
Filter by:The goal of this observational study is to learn about the relation between grip position and maximal strength and power in wheelchair rugby and basketball athletes. The main question is to investigate the relationship between maximal isometric force, acceleration, and sprint time. Participants will - pull in their sport wheelchair against a force transducer - push in their sport wheelchair from a force transducer - accelerate as fast as possible with one push - accelerate as fast as possible over a distance of 20m Researchers will compare the wheelchair basketball against wheelchair rugby players to see if there is a difference in the parameters.
This single arm clinical trial will assess whether continuous positive airway pressure (CPAP) therapy in the management of moderate-to-severe sleep-related breathing disorders (SRBDs) among para-athletes living with cervical/thoracic, complete or incomplete spinal cord injury (SCI) is effective in improving cognitive impairment, in reducing fatigue, depression, anxiety, and overall quality of life. Further, the study will evaluate the effectiveness of CPAP therapy in improving their performance in sports and the perceived risk of injuries.
The purpose of this study is to evaluate if a specific type of additional walking therapy, called body weight supported treadmill training (BWSTT) affects walking ability following a traumatic spinal cord injury. Specifically, the study will look at whether starting BWSTT, which uses a body harness to support body weight while walking on a treadmill at different times within the first 6 months after the injury, makes a difference in how effective this therapy may be, While we know that the brain re-learns patterns following an injury, there has not been a lot of prior research evaluating how starting this type of walking therapy at specific times within the first 6 months after injury may impact any effectiveness of the additional therapy. The study will randomize participants into four groups: those who start this therapy within 60 days, within 3 months, within 6 months or who do not receive this additional research therapy. Randomization means that which group you will be in as part of this study is determined by chance, like the flip of a coin. The additional walking therapy for this research study, if you are randomized for one of the three groups who receives the additional therapy, will be given on top of (meaning in addition to) any standard of care therapies that you may be receiving at that time point after your injury.
One in 60 children have a physical disability that can impact activities and participation. Occupational and physical therapies can be of great benefit, but are costly and difficult to access. Working with children, parents and clinicians, the investigators developed a mixed reality video game, Bootle Blast, which children can play to develop motor skills. Using a 3D sensor, Bootle Blast tracks movements and manipulation of real-life objects. Since 2017, Bootle Blast has been used in clinics by Holland Bloorview, Canada's largest children's rehabilitation hospital. Home use of Bootle Blast has resulted in positive clinical outcomes for children with cerebral palsy. Bootle Blast is not yet commercially available and has yet to be trialed in "real-world" contexts. To understand real-world implementation, Bootle Blast will be trialed for 14 weeks in the homes of 60 young people (6 to 17 years) with any motor condition that could be addressed by the Bootle Blast system, regardless of their diagnosis. The investigators will assess feasibility (e.g. independent home setup, ability to set/meet self-directed play time goals), enablers/barriers to use, and perceived value. User experience will inform product, training and resource development. The research team combines expertise in engineering design, medicine, physiotherapy, qualitative methods, commercialization, knowledge translation, and includes young people with lived experience.
The aim of this study is to evaluate the therapeutic benefits of a 10-week online coach-guided EEWP on psychosocial health among adults with SCI.
Chronic neuropathic pain affects 69% of adults with spinal cord injury (SCI). Current treatment options are limited (primarily pain medications) with insufficient benefits and significant risks for addiction and adverse effects. Of the available mind and body approaches, Qigong is the most accessible for adults with SCI with evidence for effectiveness in reducing pain, but there is insufficient evidence to make recommendations for adults with SCI. Thus, the feasibility of Qigong in SCI needs to be established. To support our feasibility study, we investigated a 12-week remote Qigong program in adults with SCI and neuropathic pain. We recruited 23 adults with SCI, 18 completed the study, and 12 completed the 1-year follow-up. They practiced Qigong 138% of the required intensity (which was, at least 3x/week with Qigong video through the internet). Their pain was reduced by 44% after 12 weeks of Qigong practice and was still reduced at the 6-week and 1-year follow-up. However, three key elements need to be addressed before performing a larger effectiveness study: (1) feasibility/acceptability of Qigong from adults with SCI of diverse backgrounds; (2) feasibility of the study design with control group); and (3) objective outcome measures. This R34 feasibility study, the HAPPINESS trial (cHAnging the Perceived Pain INtensity in divErSe populations with Spinal cord injury), will expand on our prior study to consolidate feasibility with a rigorous protocol. We will address the following aims: AIM 1. Identify the facilitators/barriers to participating in a Qigong study through focus groups/interviews with stakeholders from diverse backgrounds, defined as Hispanics, veterans, and adults living in rural, underserved areas. AIM 2. Establish the feasibility of study design/methods of the HAPPINESS trial in adults with SCI (at least 50% of diverse backgrounds) through pre-specified targets for recruitment/enrollment, feasibility, and acceptability of design and outcomes. Using a Phase I randomized controlled trial design, 40 adults with SCI-related neuropathic pain will be randomized to 12-week remote Qigong intervention OR a short daily pain management survey that can be completed on phone/iPad/computer + 6-month follow-up. The study results will facilitate a rigorous structure to design larger effectiveness studies and facilitate a clear pathway for researchers to investigate Qigong and other mind-body approaches for whole-person health in diverse groups of adults with chronic/neurological disorders.
Spinal cord injury (SCI) disrupts the nerves controlling movement, along with those that regulate functions like heart rate and blood pressure (known as the autonomic nervous system, or ANS). Testosterone (T) plays a significant role in brain health and ANS reflex function in non-neurologically impaired men. However, little is known about the relationships between T, nerve function, and ANS dysfunction after SCI. Interestingly, up to 60% of men with SCI exhibit persistently low T concentrations, which may worsen nerve and ANS dysfunction. In uninjured eugonadal people (normal physiologic range of serum T concentrations), a single pharmacologic dose of intranasal T has been shown to quickly improve nerve function, but no study has evaluated if T administration alters nerve and ANS function in men with SCI. Herein, the investigators will conduct the first study to test how a single dose of intranasal T impacts motor and ANS function in this population.
To assess the safety and tolerability of single and multiple doses of MTR-601 in normal healthy volunteers under fed and fasted conditions. To evaluate the plasma and urine pharmacokinetics (PK) of MTR-601. To evaluate the pharmacodynamic (PD) effects of MTR-601 on muscle strength and muscle accumulation of MTR-601 by muscle biopsy and other potential mechanistic, predictive and PD markers of MTR-601.
The goal of this clinical trial is to determine whether people with paralysis due to a spinal cord injury can benefit from breathing short intermittent bouts of air with low oxygen (O2) combined with slightly higher levels of carbon dioxide (CO2), interspaced by breathing room air. The technical name for this therapeutic air mixture is 'acute intermittent hypercapnic-hypoxia,' abbreviated as AIHH. Following exposure to the gas mixture, participants will receive non-invasive electrical stimulation to the spinal cord paired with specific and targeted exercise training. The main question this trial aims to answer is: Can the therapeutic application of AIHH, combined with non-invasive electrical stimulation to the spinal cord plus exercise training, increase the strength of muscles involved in breathing and hand function in people with paralysis due to a spinal cord injury? Participants will be asked to attend a minimum of five study visits, each separated by at least a week. During these visits, participants will be required to: - Answer basic questions about their health - Receive exposure to the therapeutic air mixture (AIHH) - Undergo non-invasive spinal electrical stimulation - Complete functional breathing and arm strength testing - Undergo a single blood draw - Provide a saliva sample Researchers will compare the results of individuals without a spinal cord injury to those of individuals with a spinal cord injury to determine if the effects are similar.
This study will test the newly-developed My spinal cord injury (SCI) Toolkit program in two formats - unguided use of the program and use supported by a coach. These two active treatment formats will be compared to treatment as usual (waitlist control) in adults with chronic pain and SCI. Hypotheses include: - Treatment adherence, participant satisfaction, and perception of positive change will be high and drop-out rates low for both treatments but will be better in the coached compared to the unguided arm - In terms of pre- to post-treatment changes in pain interference, coached My SCI Toolkit program will be superior to treatment as usual