View clinical trials related to Multiple Sclerosis.
Filter by:Multi-Center, Randomized, Double-Blinded Phase 3 Study to Evaluate the Efficacy, Safety, and Tolerability of IMU-838 versus Placebo in Adults with Relapsing Multiple Sclerosis (ENSURE-1)
The primary aim of this project is to determine whether there are differences in access to, efficacy and tolerability of Ocrelizumab in men and women of different racial and ethnic origins and socio-economic backgrounds with RRMS and PPMS in two large academic MS Centers with a high volume of patients on Ocrelizumab. The study is a retrospective analysis of multiple sclerosis patients cared for at Brigham and Women's Hospital and Boston Medical Center who were treated with Ocrelizumab during the 4 year study period.
This is a first time in human study designed to assess the safety, tolerability, pharmacokinetics and PD of GSK3888130B over a range of dose levels in healthy participants.
The greatest unmet need for people with multiple sclerosis is an effective therapy for the progressive phase. Current treatments suppress the damage caused by the immune system but there is only a limited window in which these can work. Consequently, much of the research community is turning its attention to the process of repair, called remyelination, in which the lining of nerve cells is reformed. This protects nerves from dying and therefore can delay, prevent, or even reverse, disability progression. It has previously been shown that stem cells are already present in the brain that can carry out this process. Clemastine, an anti-histamine drug, can instruct them to become active and has already shown a beneficial effect in a phase 2 trial. Now, more recent experiments have shown that changes take place within these stem cells as they age, which prevents them responding to drugs like clemastine, but that this can be reversed by treatment with metformin, a commonly used anti-diabetes drug. Our goal is to establish whether the combination of metformin and clemastine can promote remyelination in people with MS. We will focus on people with relapsing MS as they will have a greater proportion of nerves healthy enough to allow remyelination to take place, which will maximise the chance of detecting an effect with a smaller sample size. Participants will also continue treatment with a current disease-modifying MS treatment, to reduce the chance of developing new areas of damage, allowing the trial to focus on the repair process. The treatment duration will be 24 weeks, but given the established safety of the proposed medications, we are able to limit the number of visits to the trial centre to ensure participation is not overly burdensome.
Up to 70% of persons with multiple sclerosis (PwMS) experience cognitive impairment, which can have a significant impact on several aspects of their daily lives. One cognitive domain that has been shown to impact daily functioning, but is understudied in MS, is prospective memory (PM). While there have been successful PM interventions in other clinical populations, to date there has not been a specific PM intervention for PwMS that has been tested in a clinical trial. The study will be a double-masked randomized feasibility trial, with 18 participants randomized to a PM intervention and 18 participants randomized to an active control (psychoeducation). Participants will meet with an interventionist twice a week for four weeks. Feasibility will be assessed via 1) recruitment, enrollment, and retention; 2) adherence to the treatment; 3) treatment credibility and expectancy; and 4) treatment satisfaction. A preliminary effect size (Cohen's d) will be computed for the group difference using participants' performance on the Memory for Intentions Test, which will be given at baseline (week 1) and post-treatment (week 6). Participants will also complete a battery of neuropsychological measures as part of their baseline and post-treatment assessments.
The purpose of this study is to assess the effectiveness after using a new individualized-health e-library app named SavvyHealth among people with multiple sclerosis.
The purpose of this study is to implement the person-centered internet-based Health Action Process Approach to promoting physical activity in people with Multiple Sclerosis (i.e., eHAPA-MS online intervention) and assess the intervention's effectiveness and adherence.
Pediatric-onset multiple sclerosis (POMS) is a chronic, autoimmune and inflammatory disease of the central nervous system that begins before the age of 18 years. POMS patients are affected in terms of physical capacity, cognitive status and fatigue compared with their healthy peers that has been reported. It has been reported that although individuals with MS with low disability levels do not have respiratory complaints, respiratory parameters may be affected. Therefore, it is necessary to evaluate respiratory capacity, respiratory muscle strength and fatigue levels of POMS patients. Evaluations will help prevent future complications by detecting any existing problems early.
This double-blind, double-dummy study will evaluate the safety and efficacy of ocrelizumab compared with fingolimod in children and adolescents with relapsing-remitting multiple sclerosis aged between 10 and < 18 years over a duration of at least 96 weeks.
In multiple sclerosis (MS), the presence of white matter lesions surrounded by a rim of iron is suggested to signify a more severe disease course. Iron rim lesions can be detected through their appearance on susceptibility-based brain MRI at either 3-Tesla or 7-Tesla strength. We know that the formation of chronic active lesions is not uniform across MS cohorts so identifying risk factors which predispose individuals to the formation of rim lesions may provide a useful biomarker for clinical progression. One candidate set of risk factors include genetic variants which prevent some MS patients from resolving acute inflammation following their initial wave of inflammatory demyelination at lesion onset. Additionally, only small longitudinal clinical cohorts have reported the evolution of iron rim lesions many years after their initial formation, as well as their link to clinical disability or disease progression. NUH hold 7T-MRI scans of over 100 patients who received a research MRI with iron-sensitive sequences between 2008-2012. We will recruit 100 patients that received brain MRI several years ago to provide blood samples. The blood samples along with the previously acquired MRI scan will be sent to Johns Hopkins University in the US where genotyping studies will be performed to explore whether this genetic variation contributes to the accrual of chronic active rim lesions in MS. Patients who consent to provide blood samples will also have the option to consent to receive an additional 7-Tesla MRI scan which will allow us to compare how rim lesions evolve and whether their presence is correlated with disability. 30 MRI scans will initially be performed as funding for this amount is already secured. Following analysis of the pilot phase 1 data and securing additional funds, we will contact more patients who have already consented to receive the additional MRI to receive the scan