View clinical trials related to Multiple Sclerosis.
Filter by:Multiple Sclerosis (MS) is a chronic neurological disease that places a high burden on patients, families and society. Physical activity in MS is associated with improved fitness, symptoms, and function, fewer relapses, and fewer brain lesions on MRI. Saskatchewan has one of the highest rates of MS worldwide, and a recent survey estimated approximately 80% of persons living with MS are not sufficiently active for health benefits. Individuals living with MS recognize the importance of physical activity, but often indicate a lack support, including limited access to professionals knowledgeable about both MS and physical activity. There is a need to identify effective interventions for improving activity levels safely and appropriately. Behaviour change strategies target specific behaviours involved in increasing and maintaining physical activity. The primary objective of this project is to determine if individualized behaviour change strategies delivered by neurophysiotherapists increases physical activity in MS. Participants will be randomly assigned into two groups. The intervention group will receive individualized behaviour change strategies delivered through the support of neurophysiotherapists for 12 months. The wait-list control group will receive usual care for 12 months, and then be offered the intervention for a 6-month period at the end of the study period. The long-term goal of this research is to help decrease the burden of MS by identifying new opportunities for increasing physical activity.
Background: Multiple sclerosis (MS) is a disease of the central nervous system (CNS). People who have MS may have lesions that form on parts of the CNS, such as the brain. Some of these lesions may be inflamed for a long time. This causes MS to progress. There is no treatment for these lesions. Researchers believe that a drug that decreases inflammation can help. Objective: To see if a drug called anakinra can help clear inflammation in MS brain lesions. Eligibility: People 18 and older with MS and at least one white matter lesion. Design: Participants will be screened with one or more Neuroimmunology Clinic protocols. Participants will have a medical history and physical exam. They will have blood and urine tests. They will have a lumbar puncture. For this, a needle is inserted between the bones in the back, and cerebrospinal fluid is removed. They will also have an MRI of the brain. The MRI scanner is a cylinder surrounded by a strong magnetic field. Participants will lie on a table that slides in and out of the scanner. Participants will repeat the above procedures throughout the study. Participants will get their first dose of anakinra at the clinic. They will administer the rest of the doses themselves, by injection under the skin. Participants will track their daily dosage electronically or in a written drug diary. Participants will have 4 visits while taking the drug. At each visit, sharps boxes and empty vials will be collected. Participants will have 2 follow-up visits after completing treatment. The study will last 28 weeks.
The aim of the study is to create a specific test to assess the global time required to go to the toilet and to perform micturition, at the moment the patient decides to urinate in multiple sclerosis population, and to assess its reliability.
The primary objective of the study is to compare in healthy subjects, the GI tolerability of bioequivalent doses of Bafiertam™(monomethyl fumarate) and its pro-drug Tecfidera® (dimethyl fumarate). Secondary objective of this study is to compare the safety and tolerability of Bafiertam™ and Tecfidera® when administered orally following bioequivalent dose regimens in healthy subjects.
This study is to examine the efficacy of tDCS to improving walking in people with Multiple Sclerosis (PwMS). Our study compromises 1 group of subjects with MS which will attend the lab for three sessions. In the first session, subjects will be consented, complete the Patient Determined Disease Steps (PDDS), the Fatigue Severity Scale (FSS), and maximal voluntary contractions (MVCs) of the right and left knee extensors and flexors to determine the more-affected leg. The second and third sessions will involve whole-body FDG PET imaging. During each of these sessions, the subject will walk for 20 min on a treadmill at a self-selected speed during which time tDCS or SHAM, in a blinded manner, will be applied to the motor cortex (M1) corresponding to the more-affected leg. Approximately 2 minutes into the walking, [18F]fluorodeoxyglucose (FDG) will be administered by IV injection. Immediately after the walking is completed, the subject will be positioned in the PET/CT scanner and a whole body (top of head to toes) PET/CT scan will be acquired for the evaluation of glucose metabolism in the brain, spine, and lower extremities. The third session will be identical to the second session with the exception that the opposite condition (tDCS or SHAM) will be used.
To date, despite recent advances in MS care including rehabilitation interventions, many PwMS are unable to access these developments due to limited mobility, fatigue and related issues, and costs associated with travel. Thus, physical activity at home could be a new way to deliver exercises to the patients. Although Pilates did not show any significant advantage over standardized physical therapy in the current literature, it is a good method to promote physical activity, sensorimotor integration and cognitive stimulation. Thus, it could be a treatment option to improve fatigue, balance and walking abilities in PwMS; consequently, Pilates could be suggested by the clinician as a physical activity to be integrated in the daily life. This possibility could be made more feasible using new tools such as those offered by low cost devices. The main MS-FIT project purposes are to provide and to test a tool based on serious game concept of Pilates-inspired exercises for daily use at home, by mixing the entertainment aspects typical of the videogames and the possibility to perform physical activity. The MS-FIT tool does not pursue therapeutic aims as rehabilitation does, but it could have a positive impact on prevention and health in MS. MS-FIT, by using the Microsoft Kinect Motion Controller Xbox or similar to deliver adapted physical activity, offers the possibility to transform the Pilates exercises into a virtual reality game. MS-FIT, through a multicentre approach, would provide: - a feasibility study in order to: - refine the tool for the final customized version to be used in a RCT MS study - assess the tool for PwMS in terms of technology acceptability and satisfaction-to-use - assess the process of recruitment, the adherence to the intervention, the dropout rate and identify potential issues - assess human resources necessary for the RCT - estimate the effect of the intervention and its variance necessary to calculate the appropriate sample size for the RCT - a RCT study in order to evaluate the effect of a physical activity intervention of exercises inspired to Pilates self-managed at home in terms on PwMS
The overall purpose of this project is to test the feasibility of a manual wheelchair propulsion program which aims to reduce the chance of development of upper limbs pain and injury.
Multiple Sclerosis (MS) is an autoimmune, demyelinating disease of the central nervous system that causes different levels of disability with motor and sensory loss. Although the signs and symptoms of the disease vary according to the location of the lesion; loss of strength, spasticity, sensory disturbances, fatigue, ataxia, autonomic dysfunction and decreased visual acuity are frequently seen. One of the most important causes of loss of function is balance problems. Balance problems, on the other hand, result in falls that cause severe injuries. One of the most important goals in the rehabilitation of individuals with MS is to increase their performance by minimizing the risk of falling in their daily lives. For medical professionals, many medical history questionnaires, self-assessment measures and performance-based tests have been developed to determine the risk of falls. Performance-based functional assessments consist of a timed walk and walk test, functional skill, balance and fall risk, 5 times sit-and-go test and Berg Balance Test, 4 square step test and gait speed measurement tests. These tests include the ability to walk forward and revolve around ones priorities. However, walking is a more difficult activity as it involves neuromuscular control and is dependent on proprioception and protective reflexes. In daily life activities, there is a need to walk backwards to perform tasks such as leaning against a chair and opening the door. This movement can be quite challenging especially for elderly people with neurological deficits. It has been noted that the mechanical measurements of the back support, in particular the speed, the step length, and the double support surface are significantly reduced in older adults. In a study conducted in geriatric individuals, it was shown that walking backward was more sensitive to detect age-related changes in mobility and balance than walking forward. The aim of this study is to determine the validity and reliability of the 3-meter backwards walk test for evaluating performance-based fall risk in individuals with MS.
Fatigue is one of the most prevalent and disabling symptoms of multiple sclerosis. Current treatments, including pharmacological, physical therapy, sleep regulation and psychological interventions are of marginal benefit. Pharmacological treatments have inconsistent evidence. Recent studies show that non-deceptive open-label placebos (OLP) have moderate-to-large effects on symptoms, including fatigue, in adults with a variety of medical conditions. Hence, this is a pilot and feasibility study to obtain data on the feasibility and effects of OLP for multiple sclerosis related fatigue and its impact to provide the basis for a competitive NIH application. This pilot study will be the first study to evaluate whether OLP, that garners full consent and engages patients in their wellness, may offer a safe, effective treatment for multiple sclerosis related fatigue.
The investigator plans to test the use of the Ekso Bionics® Gait Training (Ekso GT™) exoskeleton for gait training in MS patients. The device will solely be used in the clinic under direct supervision from a physical therapist. This is a small PI-initiated uncontrolled pilot study to gather safety and feasibility data on the exoskeleton in individuals with MS and walking impairment.