View clinical trials related to Multiple Sclerosis.
Filter by:Multiple sclerosis (MS) is an inflammatory disease of the central nervous system (CNS) afflicting over 77,000 Canadians. Unfortunately, the therapeutic arsenal to relieve MS symptoms is limited. It is therefore essential to develop better approaches to treat the symptoms of MS. The use of cannabis for recreational purposes is now legal in Canada. However, for many years, people with Multiple Sclerosis (PwMS) have used cannabis either to relax, to reduce pain and spasticity, or to improve sleep and daily functioning. Currently, there is little scientifically established evidence that cannabis works on these symptoms in people with MS. It is therefore important to carry out studies to better understand the efficacy Δ-9-tetrahydrocannabinol (THC), and cannabidiol (CBD) on MS symptoms . THC is known for its analgesic, neuroprotective and anti-inflammatory properties and CBD seems to have positive effects on anxiety and cognitive abilities (memory, concentration). For this study, investigators hypothesize that administering different doses of THC alone, CBD alone, and THC and CBD combined will result in a significant beneficial effect on spasticity relief compared to placebo.
The objective of the study is to measure the effect of a spinal mobilisation intervention on para-spinal muscle tissue quality, functional balance measures, pain and fatigue in people with multiple sclerosis. The mobilisation intervention group will be compared to a general massage group to analyse the difference between the specificities of the intervention compared to general manual touch. Participants will be randomly allocated to a group condition for a between-subject, repeated measures study. The study hypothesises a decrease in lumbar stiffness, body sway, pain and fatigue post the intervention compared to the general massage group.
This study will evaluate if relapsing-remitting MS patients that have not had a relapse in the past year would benefit from a switch to ofatumumab versus staying on their continued current therapy. This study will also look at whether an elevated serum neurofilament light (NfL) level predicts enhanced benefit from a switch to ofatumumab.
This is a non-interventional primary use of data study utilizing de-identified patient-level onboarding and adherence data managed through the MSGo patient support service platform and includes a sub-study to explore the impact of ofatumumab on relevant patient reported outcomes (PROs) with respect to clinical outcomes.
Numerous studies have shown the diagnostic interest of cerebrospinal fluid kappa free light chains and kappa index in multiple sclerosis. However, large cohort studies are lacking and little is known about the correlation between kappa and lambda indexes and multiple sclerosis evidence disease activity. Therefore, this study plan to validate the kappa and lambda free light chains and indexes as diagnostic biomarker in multiple sclerosis and to correlate the concentration of kappa and lambda free light chains with clinical and radiological activity in a large cohort of patients.
This study will evaluate the impact of ofatumumab in Relapsing Remitting Multiple Sclerosis (RRMS) participants that are very early in the course of their disease using clinical and magnetic resonance imaging (MRI) outcomes. The study will also assess changes in disease using monitoring techniques including digital biometric device use, biomarker analysis and non-conventional MRI. Select outcomes in the ofatumumab treated group will be compared to a group of Healthy participants to determine if there are similarities between the groups after the patients with MS undergo treatment with ofatumumab.
The primary objectives of this study are to determine the safety and tolerability of DRF administered for up to 24 weeks in adult East Asian participants with RMS (Part 1) and to determine the safety and tolerability of DRF administered for up to 48 weeks in adult East Asian participants with RMS (Part 2). The secondary objective of this study is to evaluate the pharmacokinetic(s) (PK) of DRF metabolites (monomethyl fumarate [MMF] and 2-hydroxyethyl succinimide [HES]) following multiple doses of DRF in a subset of adult East Asian participants with RMS (Part 1).
This pilot study will establish a proof of concept for using a systems biology approach to characterize the dynamics of MS disease processes. The primary objective of the study is to identify multi-omic (genetic, proteomic, biochemical and/or microbial) factors that correlate with clinical and subclinical MS disease activity. Identification of such biomarkers could have an immediate clinical utility in identification of MS patients prone to more aggressive disease earlier in their disease course, thus affording the opportunity to better individualize therapy. In addition, insights from better understanding of the complex interplay of various systems biology factors should improve our understanding of MS in general. The study will recruit 14 patients with relapsing MS who are initiating treatment with ocrelizumab, and follow them for 30 months.
The success of the U.S. vaccination program against SARS-Cov-2 is shown by a dramatic drop in infection rates, hospitalizations and deaths.However, it appears that many persons who take medications that chronically suppress the immune system do not produce neutralizing antibodies to COVID-19 proteins in response to vaccination. This group includes a significant number of persons with multiple sclerosis (PWMS), many of whom are on therapies that chronically suppress their immune function. It is unclear what advice clinicians should provide regarding COVID-19 precautions to patients who fail to develop detectable COVID-19 spike protein antibodies using standard commercially-available tests after a standard series of vaccination, or whether they should test for antibody responses to COVID-19 vaccines in the absence of guidelines. A key research question is whether, in the absence of stopping or reducing potentially immune-altering therapies, there is a way to increase the likelihood of a neutralizing antibody response to COVID-19 vaccination in PWMS who are taking immune suppressive medications.
Fibroblasts have demonstrated potent immune modulatory and therapeutic activity in the experimental autoimmune encephalomyelitis (EAE) model of multiple sclerosis, as well as in other models of autoimmune and inflammatory diseases. This study will assess primary safety and secondary efficacy endpoints of intravenous administration of 100 million tolerogenic fibroblasts to 5 patients with relapsing remitting MS resistant to interferon. While the safety of fibroblasts administered clinically is established, it is unknown whether these cells are effective in the treatment of multiple sclerosis (MS). Our hypothesis is that the tolerogenic fibroblasts will be well-tolerated and meet our primary objective. In addition, The investigators are optimistic that they will see signs of efficacy based on the following: Neurological assessment of the MS functional composite assessment which comprises of EDSS, the expanded EDSS (Rating Neurologic Impairment in Multiple Sclerosis, the Scripps neurological rating scale (NRS), paced auditory serial addition test (PASAT), the nine-hole peg test, and 25-foot walking time, short-form 36 (SF-36) quality of life questionnaire and gadolinium-enhanced MRI scans of the brain and cervical spinal cord.