View clinical trials related to Multiple Sclerosis.
Filter by:This Next Generation learning health system for Multiple Sclerosis (Next-Gen MS) study is a sub-study of the MS-LINKā¢ Outcomes Study (NCT04735406). The study aims to examine the effects of using feed forward Patient Reported Outcomes (PROs) data in real-world Multiple Sclerosis (MS) care settings. The study will be conducted within an emerging Learning Healthcare System (LHS).
This study is a national, prospective, multicenter, non-interventional (observational) study with the aim to describe the impact of Siponimod treatment in a real-world SPMS population in Switzerland who are treated with Siponimod as per Swiss label.
This study evaluated if relapsing multiple sclerosis (MS) participants treated with ofatumumab 20 mg subcutaneous (s.c.) administered once monthly could develop an adequate immune response to the COVID-19 mRNA vaccine compared to participants on an interferon or glatiramer acetate.
This is a multicenter, randomized, double-blind, placebo-controlled, Phase 4 study in which eligible patients with RADIOLOGICALLY ISOLATED SYNDROME (RIS) (as defined by meeting 2017 McDonald criteria for DIS) will be randomized 1:1 to receive ocrelizumab treatment or placebo (standard of care).
The primary objective is to determine whether the use of immunomodulating medications have an impact on the ability to mount and sustain an immune response to SARS-CoV-2 spike protein following mRNA vaccination in patients with MS when compared to healthy controls not receiving immunomodulating medications. We hypothesize that the use of immunomodulators in MS patients may eliminate or reduce the level of protective immune response, and/or shorten the duration of the protective response.
The objective of this project will be to characterise the benefits of an exercise programme adapted to each individual's abilities compared to a traditional exercise programme with the aim of reducing perceived fatigue and improving the quality of life of Patients with multiple sclerosis.
Multiple sclerosis is the most common inflammatory disease of the central nervous system and a common cause of disability in young adults. Depleting B cells from the circulation with an anti-cluster of differentiation (CD) 20 antibodies has proven to be an effective strategy in reducing relapses and disability in patients with the relapsing-remitting disease. However, continuous and long-term depletion of B-cells can result in reduced immunoglobulin levels, immunosuppression, and an increased tendency for severe infections and perhaps, even malignancy. Blocking B-cell Activating Factor (BAFF) is effective for the treatment of several autoimmune disorders. Belimumab, a BAFF blocking antibody, has been approved by the Food and Drug Administration for the treatment of systemic lupus erythematosus. Belimumab has been shown to have immunomodulatory properties, without resulting in overt immunosuppression. The investigators hypothesize that belimumab, given to patients who received a short course of treatment with B-cell depleting antibody (ocrelizumab), will be safe and equally effective in reducing MS disease activity (as compared to patients receiving continuous treatment with ocrelizumab); while resulting in less immunosuppression, as measured by antibody response to pneumococcal vaccination. Currently, available treatment strategies in relapsing MS sacrifice higher efficacy for long-term safety or vice versa. The proposed strategy in this application combines the long-term safety and high efficacy to treat patients with relapsing-remitting multiple sclerosis (RRMS) and, if eventually proven effective, can be adopted in a large proportion of patients with this chronic disease. This is a randomized, open-labeled trial. Forty eligible participants will be randomized 1:1 to either receiving a form of standard of care, ocrelizumab (300 mg two infusions two weeks apart at baseline and then 600 mg as a single infusion every six months) or belimumab (200 mg subcutaneous (SC) weekly for 36 months) plus two courses of ocrelizumab (300 mg two infusions two weeks apart at baseline and 600 mg as a single infusion six months later). Co-primary outcomes of the study include pneumococcal vaccine antibody response, the return of MS disease activity, and proportions of patients with adverse events and serious adverse events.
This is a pilot study to compare cognitive performance in two groups of subjects with multiple sclerosis; those with normal glucose tolerance and those with impaired glucose tolerance. The study consists of a 2 hour oral glucose tolerance test, patient reported outcomes, a series of cognitive functioning tests, and outpatient physical assessment using a pedometer.
The Multiple Sclerosis Functional Composite (MSFC), a reliable and well-validated instrument, was developed as a multidimensional quantitative measure of neurologic disability in MS. However, the traditional form of the MSFC has various limitations, including the need for MS patients to be assessed in a clinical setting by trained technicians, which requires additional human resources and time in a clinical routine practice setting. Furthermore, storage of MSFC data for longitudinal comparison is difficult and time consuming. The MS Performance Test (MSPT) software tool is designed to objectively quantify the major motor, visual and cognitive function data, and quality of life outcomes, associated with MS and related disorders. This is a single center observational study that will examine the use of the MSPT in a real world setting. Study enrollment will occur at one center in Switzerland.
Many central nervous system pathologies have an inflammatory component, often associated with an accumulation of disability and more severe tissue damage. In multiple sclerosis, the inflammatory process is in part characterized by the activation of microglia, an entity of the innate inflammatory system, as well as a breakdown of the blood-brain barrier. During inflammation, activated microglia may contain high levels of iron, characterizing its activated state.