View clinical trials related to Multiple Sclerosis.
Filter by:The use of simulators to retrain driving skills of patients with stroke, Parkinson's disease (PD), or multiple sclerosis (MS) is very limited because of cost, space required, and incidence of simulator sickness in high fidelity simulators. The Principal investigator recently developed a low cost low fidelity portable driving simulator (PDS). In this pilot study, the study team will (1) determine the ease of use and occurrence of simulator sickness while operating the low fidelity PDS in a clinic setting and (2) the efficacy of the low fidelity PDS to reproduce the benefits from retraining impaired driving skills of stroke survivors in a high-fidelity simulator. Participants: 30 participants, separated according to neurological condition including stroke, PD, or MS, will be randomly allocated to either the PDS or fixed-base high-fidelity simulator training. Each participant will undergo a pre-training evaluation, five hours of designated training and a post-training assessment, similar to the pre-training evaluation. Data will be analyzed according to study aims. The investigators hypothesize that the simple set up of the PDS will make it easier to use and better decrease the incidence of simulator sickness that typically leads to stopping therapy than the high-fidelity simulator. The investigators hypothesize that improvements in lane maintenance, adherence to speed limits, reaction to traffic lights, and overall reaction time after training using the PDS will not be significantly different from improvements observed after training using the high-fidelity driving simulator.
This randomized controlled trial with an accompanying process evaluation investigates the hypothesis that behavioural and web-based information on immunotherapy decisions, disease management and lifestyle can change patient behaviour resulting in reduced inflammatory disease activity in multiple sclerosis.
This study evaluates whether Remote Ischaemic Preconditioning (RIPC) can improve activity, gait and fatigue in people with Multiple Sclerosis. Half the participants will receive RIPC, the other half will receive a sham treatment.
This study will compare the effectiveness of a traditional, continuous walking rehabilitation program for people with MS to the novel intervention of an intermittent or interval walking rehabilitation program. Half of the participants will receive the continuous walking program while the other half will receive the novel intermittent walking program.
The purpose of this study is to better understand the mechanism of action (MoA) of cladribine tablets by exploring the effect on central nervous system (CNS) and blood biomarkers relevant in the relapsing forms of multiple sclerosis (RMS; to include relapsing-remitting MS [RRMS] or active secondary progressive MS).
The visual prognosis of optic neuritis not related to multiple sclerosis is unknown, both in terms of functional recovery and evolution. This prospective cohort study aim to assess the ophthalmological evolution of patients presenting an episode of optic neuritis (NO) not related to a multiple sclerosis or to a clinically isolated syndrome.
The objective of this study was to collect data both retrospectively and prospectively in order to evaluate the long-term outcomes, durability of effect, and real-world treatment patterns following treatment with Cladribine Tablets or placebo in participants with multiple sclerosis (MS) who were previously participated in the parent studies (ORACLE MS and CLARITY/CLARITY-EXT).
This study will evaluate the safety, tolerability, and descriptive efficacy of BIIB017 in pediatric participants with relapsing-remitting multiple sclerosis (RRMS) and to assess the pharmacokinetics (PK) of BIIB017 in pediatric participants with RRMS in Part 1. In Part 2, the study will evaluate the long-term safety of BIIB017 and further describe safety and the long-term multiple sclerosis (MS) outcomes after BIIB017 treatment in participants who completed the study treatment at Week 96 in Part 1 of the study.
The study evaluates the efficacy of the CAN DO Program for improving health, wellness, and quality of life in people with MS, and compares outcomes between people with MS who participate in the CAN DO Program to a control group of people with MS who do not participate in the CAN DO Program. The study also evaluates the impact of the CAN DO Program on support partners.
The current project will examine effectiveness of an intervention based on the concept of the social regulation of emotion. The intervention is designed to improve well-being in individuals with MS by leveraging participants' existing social support. Effectiveness will be tested on a sample of 42 individuals with MS, half of whom will receive the intervention and half of which will receive an inactive control. Investigators will document changes resulting from treatment on self-reported levels of stress, depression, and quality of life. Intervention evaluation will expand scientific knowledge of emotion regulation disruption in MS, and potentially identify a novel and highly efficient means of treatment.