Active clinical trials for "Spinal Cord Injuries"

Prospective, Open label, single arm, non-randomized, non-comparative registry study of Robot-Assisted Physiotherapy Exercises with the REX Robot powered exercise system in patients with Spinal cord or other injury preventing unsupported patient ambulation.

Spinal cord injury (SCI) is debilitating to an individual's health, functional capacity and quality of life. This contributes to a sedentary lifestyle and an elevated risk for cardiometabolic and hypokinetic diseases. While physical activity is promoted in persons with SCI to reduce incidence of secondary disabling conditions, a majority of individuals are inactive and have low levels of fitness. High intensity interval training (HIIT) is a form of exercise characterized by brief, intermittent bouts of intense exercise, separated by periods of lower intensity exercise for recovery. The level of improvements in aerobic exercise capacity following HIIT are similar to moderate-intensity continuous training, but only require a fraction of the total energy and time commitment. Little research has been done on HIIT in persons with SCI, who are unable to carry out conventional lower limb HIIT exercises. An upper extremity form of HIIT that is effective, safe, and quick could be an attractive option for these individuals. The study will look at feasibility and acceptability of a 6-week HIIT program for persons with a spinal cord injury who are untrained. Investigators will test 10 untrained individuals with SCI/D who use a manual wheelchair full time. Prior to any testing, participants will be screened and will need to obtain a signed medical release from their physician. The screening involves asking the participant the inclusion/exclusion criteria and administering two short questionnaires related to physical activity. After obtaining the release form, participants will be scheduled for their first visit. During Visit 1, baseline testing and questionnaires will be completed. The study questionnaires will address sociodemographics, pain and health measures, general health, and physical activity. Exercise testing includes an aerobic exercise stress test (conducted following American College of Sports Medicine guidelines using an electronic ergometer) and an anaerobic (maximum power output) test. After Visit 1, participants will exercise three times per week for six weeks, following a standard HIIT protocol. Two of those sessions will be supervised by a trainer, and one session will be completed on their own. After six weeks, participants will be scheduled for Visit 2 and will complete the same evaluations as Visit 1. Additionally, participants will complete evaluations on their level of satisfaction of the training program and their likelihood to continue.

The SCI Virtual Coach study has developed an on-screen, human-like character that will provide support, education and coaching to adults with spinal cord injury (SCI) to aid in the prevention of serious secondary conditions like pressure ulcers. In a randomized controlled trial, participants assigned to "the Coach" intervention will have a touch-screen computer placed in their homes and be asked to interact with the Coach on a daily basis for 2 months. Participants will be asked to complete surveys at baseline and 2 months. The SCI Virtual Coach study aims to measure how accessible and usable participants feel the Coach is, as well as participants' adherence to the Coach's instructions. It will also gauge how effective the Coach is in changing self-care knowledge, health care behaviors, self-efficacy for self-care, and perception of social support in participants.

The proposed study is designed to answer a novel research question: Can resistive respiratory muscle training designed to improve respiratory motor control also improve blood pressure regulation impaired by spinal cord injury? Resistive breathing exercise, or respiratory muscle training, has been applied to rehabilitate breathing after spinal cord injury, but has not been evaluated as a method for increasing resting blood pressure and / or improving its regulation under stress as is planned in the proposed project. For the first time, respiratory muscle training intervention will be used as a tool to investigate the physiological relationships between pulmonary and cardiovascular function in individuals with Spinal Cord Injury (SCI). Thus, it will foster a new direction from which to address neglected issues surrounding the cardiovascular complications of spinal cord injury.

Individuals with a spinal cord injury need to exercise regularly to prevent the decline of health that results from a sedentary lifestyle. The purpose of this investigation is to examine the effects of a pre-existing exercise program and respiratory training on measures of health and quality of life in individuals who elect to participate in an existing 8-week supervised exercise program.

Up to 15 individuals living with chronic SCI will be recruited for this study. Each participant will complete an initial clinical assessment before starting a 10-week training program. The training program will consist of three 45-minute Whole-Body Electrical Muscle Stimulation (WBEMS)-augmented exercise training sessions for 10 weeks. At each training session, all adverse events (pain, redness, injury, etc.) will be recorded along with participants' comments concerning comfort (i.e. Objective 1). The investigators hypothesize that the use of a WBEMS will result in no serious adverse effect during and following the training sessions and that it will take less than 10 minutes to don and doff the suit. At the fifth session, after participants have had the opportunity to become familiar with the WBEMS intervention, the immediate effects of the intervention on physiological responses will be assessed (i.e. Objective 2). It is hypothesized that during a single training session consisting of WBEMS and exercise, physiological responses and energy expenditure (EE) will be significantly improved in participants with SCI compared to a training session consisting solely of exercises without WBEMS. At the end of the training program, participants will complete the final clinical assessment to evaluate the therapeutic benefit of the WBEMS-augmented exercise intervention (i.e. Objective 3). Three months after the end of the training program, the participants will be asked to complete a semi-structured interview and questionnaire to evaluate the perceived benefits of the training program (i.e. Objective 3).It is also hypothesized that participants will perceive benefits of the 10-week training program such as decreased spasticity, increased energy and improved mood.

The purpose of this study is to look at the effect of using Mirtazapine to target a specific pathway in the body, that relies on a natural chemical the body produces called 'serotonin', in patients with spinal cord injury (SCI) and non-injured persons during sleep. During this part of the study participants will be asked to take Mirtazapine (15mg per day) and a placebo in a random fashion, each for a one week period (drug period) of time followed by one week without drugs (washout period). The drugs will not be taken all at the same time, but each will be taken separately for one weeks followed by a night study to look at the effect the Mirtazapine/placebo pill has on the way the body responds during sleep.

To determine the Acute effects of continuous verses interval aerobic training on autonomic dysreflexia in Spinal Cord injury Patient. To Determine the Acute effects of these training on, Exercise Self efficacy and pain.

We propose to demonstrate that epidural stimulation (ES) can be used to recover significant levels of autonomic control of cardiovascular and respiratory function as well as the ability to voluntarily control leg movements below the injury level. This intervention would provide an immediate therapeutic alternative to individuals who now have no recourse for treatment.

The purpose of this study is to provide profound insight into the supraspinal neuronal mechanisms and networks responsible for lower urinary tract (LUT) control and to verify, amend or adjust neuronal circuitry models established from findings in healthy subjects in the context of neurogenic and non-neurogenic LUT dysfunction.