View clinical trials related to Spinal Cord Injury.
Filter by:The conventional treatment of spinal cord injury (SCI) includes physical therapy and rehabilitation and in some cases may require surgical intervention. Although improved emergency care and aggressive treatment can help in preventing further damage and even restore minimal sensory functions, still a large proportion of patients suffer with prolonged disabilities. It led neurologists to search out for new treatment options for this otherwise debilitating disorder. Recent advances in research have developed a better understanding of stem cell biology especially their role in tissue repair and regeneration. Encouraging results in pre-clinical phase and limited human trials have proved that stem cells can be safely and effectively delivered to the injured site for regeneration of damaged tissue. Although a variety of cell types have been tried for their role in repair of spinal cord injury, majority of clinical trials employed stem cells taken from bone marrow especially mesenchymal stromal cells (MSC). Bone marrow MSCs are a good choice for regenerative therapies owing to advantages like ease of collection and ex-vivo culturing, immune tolerance and their ability to differentiate into a variety of cell types including neuronal lineage cells. Intravenous application or direct injection of MSCs into cerebrospinal fluid (CSF) via lumber puncture in animal models of SCI and brain trauma had shown that MSCs can migrate towards and integrate into injured spinal tissue and reduce cyst size and increase functional recovery. The literature indicates that acute, sub-acute and chronic injury can be a therapeutic target for MSC grafting. The mechanism of action may however vary among these conditions. In acute phase, MSC administration play anti-inflammatory role, while in sub-acute/chronic setting it may be used as neurostimulator and for cell bridging effect and possibly glial or neuronal cell replacement. The investigators propose a non-randomized, single group, open label, phase-I, interventional study to evaluate the safety and efficacy of intrathecal delivery of patient's own (autologous) bone marrow mesenchymal stem cells for treatment of spinal cord injury. This will include determination of functional recovery (neuro-muscular control and sensation) in the affected area and overall improvement in quality of life of the patients and also take into account any side effects, if observed.
Background: Chronic pain is one of the most burdensome potential consequences of a physical disability, such as spinal cord injury (SCI). Estimates of the incidence of chronic pain in SCI range between 65 - 80%. A recent pilot-study of a computer-based tailored positive psychology intervention showed a significant reduction in pain intensity, pain interference, pain catastrophizing and depression and an enhancement of subjective well-being and control over pain in persons with chronic pain secondary to a physical disability. Study Objective: Objective 1: To determine the efficacy of a tailored positive psychology intervention (T3P) in a community-based, single-blind, randomized, controlled, parallel group trial on subjective well-being and pain in individuals with chronic pain secondary to SCI. Hypothesis 1: T3P will result in (1) greater immediate and long-lasting increase in subjective well-being, and perceived control over pain and (2) greater immediate and long-lasting decrease in depression, pain intensity, pain interference and catastrophizing, relative to an active control treatment. Specific aim 1: To increase the understanding of the mechanisms underlying T3P by determining potential mediation effects. Hypothesis 2: (1) Pain catastrophizing and pain control mediate the effect of T3P on pain intensity, and (2) positive and negative affect mediate the effect of T3P on life satisfaction and depression. Objective 2: To identify for whom T3P is most effective by exploring potential moderator effects. Study Design: The proposed study is a single-blind, randomized, controlled trial with a parallel group design to determine the effects and mechanisms of T3P in a Swiss community sample of persons with chronic pain secondary to SCI.
The purpose of this study is to look at the effect of exciting using drugs 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) during sleep. During this part of the study participants will be asked to take buspirone (Buspar) (15-50mg per day), trazodone (100mg per day) and a placebo in a random fashion, each for a 2 week period (drug period) of time followed by two weeks without drugs (washout period). The drugs will not be taken all at the same time, but each will be taken separately for two weeks followed by a night study to look at the effect the medication/placebo pill has on the way the body responds during sleep.
Cardiovascular disease-related morbidity in persons with spinal cord injury (SCI) occurs earlier in life, at a greater prevalence than that of the general population, and is the primary cause of death after the first year of injury. During the chronic phase of SCI, a characteristic dyslipidemia emerges, which is characterized by low serum high density lipoprotein cholesterol (HDL-C) concentrations, with values often qualifying to be an independent risk factor for coronary artery disease, and elevations in serum triglycerides (TG). Serum low density lipoprotein cholesterol concentrations in those with SCI are usually similar to those of the general population. The current proposal in persons with SCI aims to determine the safety and efficacy of short-term fenofibrate treatment, an anti-lipid medication whose primary action lowers serum TG and raises serum HDL-C levels.
The purpose of this study is to determine whether pelvic floor muscle training (PFMT) and intravaginal neuromuscular electrical stimulation (NMES) are effective in reducing urinary incontinence and improving quality of life in women with spinal cord injury (SCI).
The aim of this study is the validation of a novel gait assessment method implemented in the Lokomat gait trainer with respect to established clinical gait assessment methods. The walking assessment method is based on the progressive reduction of the support of the device. The outcome measures of this algorithm will be the support needed in the different gait phases (guidance force of hip and knee joints) and the support required to the body weight support system (unloading). The hypothesis is that the guidance force and the support of the device will converge to a profile individual for each subject that is representative of one's impairment in the different gait phases. The reliability of the method will be tested collecting data from two sessions of Lokomat training. The validity of the method will be tested comparing the outcome of the assessment task with established clinical walking assessment measures.
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.
An injury to the spinal cord results in a number of secondary medical problems, including the inability to voluntarily control the bowels. Depending on the severity and location of the injury, remaining bowel function differs, and can include any combination of the following: constipation (prolonged stool retention), difficulty with evacuation (difficultly moving bowels), fecal incontinence (problems retaining stool until it is appropriate to move the bowels). Most of the current medications and treatment options address problems of constipation and difficulty with evacuation, but there are few options for individuals who suffer from incontinency. In this study, the investigators propose to study, in detail, anorectal muscle function in individuals with spinal injury - the investigators will do so using new technology called high resolution manometry - which will present the investigator with a 3 dimensional representation of the pressure profile of the anorectal muscles as the subject attempts different maneuvers. A subgroup with representatives of all levels and completeness of injury and anorectal muscle function will be enrolled to participate in six weeks of biofeedback training to see if their bowel function can be improved. During these six weeks, the subjects will be asked to visit the laboratory twice a week in order to be trained by the research team on how to improve their anorectal strength and function in response to visual cues. After the six weeks, another manometry study will be performed. Subjects will then be sent home and asked to perform a series of home exercises for another 6 weeks, after which they will asked to return for a third and final manometry study.
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.
Spinal cord injury (SCI) may result in physical deficits that require assistance from others in order to stay healthy and live independently in a community. The assistance provided by caregivers to a family member with SCI often involves a wide range of activities from helping with basic activities, like toileting and bathing, to managing more complex tasks, such as keeping up with household finances, shopping, and transportation. Caregiving puts demands on an individual's ability to cope and deal with day-to-day stresses, and may be influenced by personal beliefs about one's ability to cope with stress. Beliefs about our ability to perform tasks that affect our lives have been termed "self-efficacy". A strong sense of self-efficacy has been shown to positively impact life choices, motivation, quality of functioning, resilience to adversity, and vulnerability to stress and depression. People with low self-efficacy tend to avoid challenges, discontinue tasks that are difficult, and be at risk for more depression and stress, resulting in less satisfaction with life. This study uses a psychological strategy, called cognitive behavioral therapy (CBT), to enhance self-efficacy skills for caregivers of family members with SCI, with a focus on changing thinking styles to help people make emotional and behavioral changes. The investigators hypothesize that by providing family caregivers with a six week group educational intervention, their self-efficacy skills as well as general life satisfaction can be improved, and minimize depression, stress and anxiety that often accompany the caregiving role. The innovation of the proposed intervention is its integration of positive psychotherapy concepts into structured group CBT to develop optimistic self-efficacy beliefs, strengthen the caregiver's ability to deal with day-to-day stress, and enhance a sense of well-being in the caregiver which, in turn, may benefit the family member with SCI.