View clinical trials related to Spinal Cord Injuries.
Filter by:To better depict the full range of spasticity after Spinal Cord Injury (SCI) there is a need to take into account the patients perspective and their experiences during daily life. In 2007 the Spinal Cord Injury-Spasticity Evaluation Tool (SCI-SET) was created and validated. This specific questionnaire addresses the influence of spasticity on the daily life of SCI patients and takes into account negative as well as positive effects of spasticity to fulfill certain tasks. Until now this questionnaire is only available in english, turkish and persian language. Therefore, the investigators translated and culturally adapted this questionnaire and within this study this questionnaire shall be validated in a small cohort of SCI patients. The patients will fill in several different questionnaires at a first meeting and one week later the SCI-SETde questionnaire again to evaluate test-retest properties. Recruiting will happen completely at the Swiss Paraplegic Centre Nottwil, Switzerland.
This study investigates the burden of intermittent catheterization in adult individuals with neurogenic lower urinary tract dysfunction (NLUTD) following spinal cord injury (SCI). Individuals will be recruited to compare two types of catheters. Each participant will use a non-hydrophilic catheter at one time point and a hydrophilic catheter at a different time point to perform intermittent catheterization. The order that participants use either a non-hydrophilic or a hydrophilic catheter will be determined randomly. The purpose of the study is to provide evidence for time spent on bladder management (performing intermittent catheterization) as well as consumer satisfaction on using both catheters.
Purpose: The objective of this study is to assess a newly created decision support intervention (DSI) or decision aid (DA) for people with spinal cord injury (SCI) to learn about and consider upper extremity reconstructive surgery to help them choose a course of treatment that most aligns with their values.
Shoulder pain is a common, debilitating problem for persons with Spinal cord injuries (SCI). Shoulder pain affects approximately 40-50% of the total population of persons with paraplegia (those with SCI with full use of their upper extremities and no or limited use of their lower extremities). Among the etiologies of shoulder pain in persons with paraplegia, overuse syndrome is the most common. Shoulder overuse syndrome in a person with paraplegia is the result of high activity demands and high mechanical load on the upper extremity during activities such as wheelchair propulsion, transferring with the arms, and performing activities of daily living from a wheelchair height, resulting in increased overhead activity. The pain as a result of overuse syndrome can limit the patient's participation in occupational and physical therapy as well as limit performance of activities of daily living and participation in usual life activities. An alternative treatment for shoulder pain with evidence to support efficacy in the able bodied population is Manual Therapy (MT). Unfortunately, there have been no prior research studies published examining the therapeutic efficacy of MT for overuse injuries of the shoulder in patients with paraplegia. This study will determine if MT, is efficacious to reduce pain in this population. A total of 20 patients with paraplegia identified in the outpatient clinic at Craig Hospital with overuse syndrome of the shoulder will be enrolled in the study.
Recovery from injury is an immune function but also involves stress. Spinal cord injury (SCI) patients are one population with a difficult recovery journey. Improvements in SCI rehabilitation could benefit patient's recovery and decrease their functional limitations. Lack of independence and chronic pain contributes to a higher rate of mental health problems (48.5%) and clinical stress (25%) in SCI patients. Depression is more common among auto-immune phenotypes and depression patients have higher pro-inflammatory cytokine profiles, suggesting stress impacts the immune system and thus opposes recovery. Mindfulness meditation (MM) is one form of stress-reduction therapy, which also decreases anxiety, depression, and pain. Little research has investigated whether this extends to functional outcomes of mental health during recovery. The investigators will look at the "functional outcomes of mental health", including stress, pain, quality of life, quality of sleep, and outcomes of depression using validated surveys. The investigators hypothesize that MM will significantly improve functional outcomes of mental health in SCI patients during their rehabilitation in a dose-dependent fashion, compared to 'standard therapy' alone control, with effects sustained 1-month post-intervention. Patients will take surveys of their mindfulness practices and mental health functional outcomes at 0 weeks (baseline), 8 weeks (post-treatment), and 12 weeks (follow-up). MM will be delivered to a randomized sample of SCI patients via one of three MM apps for 8 weeks. Linear regression will identify if patients practicing more MM have better mental health functional outcomes in a dose-dependent manner. The findings from this study will provide evidence of sustained stress-relief and mental health functional outcomes of consumer-based MM apps, which can be applied to improve SCI rehabilitation in an accessible manner.
Functional Electrical Stimulation is an established technique in which small electrical impulses are used to cause a contraction in muscles and thereby enable movement, in people with neurological or musculoskeletal problems who are unable to undertake those movements themselves. People with spinal cord injuries of the neck at C5, C6 and C7 account for 35% of all spinal cord injuries. Despite this, there is only one commercial FES (Functional Electrical Stimulation) based orthosis currently available. Even that has limitations in that it as it has a single size rigid exoskeleton it does not fit all people who could benefit and also due to its rigidity it does not allow people with lower injuries to utilise any remaining tenodesis grip. As a result, it is not widely used within the spinal injured communities. Therefore what is required is a more flexible system that can benefit a larger number of people whilst still being affordable within the constraints of the NHS. A previous INSPIRE funded project, TETRAGRIP I demonstrated that a surface FES system controlled by an inertial sensor, measuring movement of the opposite shoulder, could meet this specification and was successfully tried on two people with tetraplegia. What is now required is a more detailed study in which the principle components of that system are incorporated into a practical device suitable for use at home without clinical supervision. It is therefore proposed to develop and build such a system and to conduct extended home based trials in three people with tetraplegia.
To develop a self-administered tool for assessment of sacral sparing after spinal cord injury (SCI) and to test its validity in individuals with SCI.
Aim of the study is to assess the psychometric properties of the International Standards for Neurological Classification of Spinal Cord Injury in subjects with non traumatic lesions.
This study will determine if the implementation of a home-based telehealth high intensity interval exercise-training (HIIT)program can significantly improve cardiometabolic health and physical function in a cohort of individuals with longstanding spinal cord injury (SCI). Results from this study will determine feasibility, overall enjoyment, and health impact of implementing a home-based telehealth HIIT program in individuals with SCI.
Nepal is a low-income country with over 3 million individuals with physical disabilities and currently no government-run specialist rehabilitation services. The aim of this research proposal is to work in partnership with a Nepal Non-Governmental Organisation (NGO), the Spinal Injury Rehabilitation Centre (SIRC, Nepal) to achieve the following: 1. estimate the rehabilitation needs in individuals after stroke, brain injury and spinal cord injury in rural communities after discharge from SIRC 2. hold user and stakeholder workshops to explore the role of multidisciplinary teleconferencing methods for remote assessment and management and agree systems for piloting 3. deploy and pilot a novel telerehabilitation system to improve the lives of these individuals, and evaluate it in terms of feasibility and acceptability