View clinical trials related to Multiple Sclerosis.
Filter by:This project aims to implement and investigate a mindfulness-based stress reduction (MBSR) in people with multiple sclerosis (PwMS). The main objective is to implement MBSR intervention for PwMS in a major tertiary care clinic for PwMS. We will iteratively refine the intervention as required based on stakeholder feedback and any other emergent contextual findings. Participants will be asked to take part in an 8-week MBSR course and report changes in anxiety, depression, quality of life, emotional regulation, self-compassion, mindfulness, and health services use.
The purpose of this study is to examine how neuromuscular electrical stimulation (NMES), may synergistically enhance corticospinal excitability in people with relapsing form multiple sclerosis (MS). This is an important intermediate step to evaluate the potential of AIH + NMES as a plasticity-priming strategy for more efficacious interventions for persons with MS. This study will measure ankle torque generation and amplitude of motor evoked potentials (MEPs) using a repeated measures study design in order to better understand the effects of AIH combined with NMES, as compared to only receiving NMES, and only receiving AIH.
This single-group pretest-posttest study aims to examine the feasibility domains in response to 12 weeks of home-based balance training in persons with multiple sclerosis (MS). The feasibility domains include 1) process (e.g., recruitment, attendance, adherence rate), 2) resources (e.g., total monetary costs), 3) management (e.g., assessment time), and 4) scientific outcomes (adverse events, intervention acceptability, satisfaction, treatment effects). Moreover, this study aims to evaluate physical function (i.e., balance, mobility, dual-task ability), cognitive function (i.e., cognitive processing speed, verbal memory, visuospatial memory), real-world ambulation (i.e., gait speed, gait variability, gait quantity), and self-report questionnaires (fatigue, fear of falling, walking disability, dual-tasking difficulty). Our proposed intervention is expected to deliver a feasible and accessible exercise modality for balance and cognitive improvement in persons with multiple sclerosis.
Approximately 50% of people with multiple sclerosis (MS) use a wheelchair within 30 years of the initial diagnosis. Wheelchair use in MS is often associated with fatigue as a consequence of muscle weakness. Indeed, fatigue, a prevalent consequence of MS, often becomes debilitating and exhausts energetic resources when carrying-out tasks of daily life and/or interacting with the community, as these require ambulatory mobility. This experience of excessive fatigue has its roots in muscle weakness and results in reliance on a wheelchair for mobility, and the dependency on a wheelchair may further reduce muscular strength, particularly of the lower extremities. We propose that wheelchair users with MS can increase muscular strength through a personalized exercise rehabilitation, and this in turn will improve ambulatory performance and possibly reduce fatigue. To date, no research has examined the effects of this specific exercise rehabilitation program (GH method) on physical function and other disease-related outcomes in persons with MS who use wheelchairs as a primary mobility device.
The purpose of this study is to evaluate the effectiveness, safety, tolerability, drug levels and drug effects of ozanimod compared to fingolimod in children and adolescents with relapsing remitting multiple sclerosis (RRMS).
The purpose of this study is to assess the effectiveness and safety of ozanimod in Chinese adults with relapsing multiple sclerosis.
Radiologically isolated syndrome (RIS) often precedes Multiple Sclerosis (MS) but some patients have no symptoms. This study aims to use biological samples and magnetic resonance imaging (MRI) data from four large cohorts of patients with MS in the United States, Europe and France, to stratify the chances of RIS developing into MS. Identifying early biomarkers to predict greater disease severity would have a significant impact, not only on RIS but also on the entire clinical spectrum of multiple sclerosis.
The investigators are doing this study to see if a treatment called dry needling improves muscle spasticity (muscle tightness) in people who have Multiple Sclerosis. Dry needling involves using tiny needles, like those in acupuncture, to target some muscles, like calf muscles. It differs from traditional acupuncture as it focuses on treating or managing muscle spots, aiming to reduce muscle stiffness and pain. Dry needling may offer a minimally-invasive and medication-free approach to improve muscle spasticity. The investigators hope to see if dry needling also helps enhance balance and walking abilities. This might provide potential improvements inoverall mobility and balance.
This study seeks to explore changes in the neural pathways and arm function following a breathing intervention in the multiple sclerosis (MS) population. The breathing intervention, known as Acute Intermittent Hypoxia (AIH), involves breathing brief bouts of low levels of oxygen. Research has found AIH to be a safe and effective intervention resulting in increased ankle strength in people with MS. Here, the study examines arm and hand function before and after AIH. In order to better understand the brain and spinal cord response to AIH, the investigators will measure muscle response, and signals sent from the brain to the arm muscles before and after AIH.
The aim of this monocentric randomized controlled intervention study is to improve visual function in persons with multiple sclerosis following optic neuritis (neuritis nervi optici) by means of a light stimulation. In the treatment arm, two 80-second light stimulations are to be administered daily for 12 days in 25 persons with multiple sclerosis following recent optic neuritis (1-3 months). For the standardized application of light stimulation in the sense of standardized training, the light stimulation is to be carried out by watching a generated flicker video on a mobile phone. In a sham-intervened control group (sample size 25), the spontaneous course after optic neuritis will be recorded in parallel. Intensive neuronal stimulation of the visual pathway will be used to stimulate regenerative processes, which will be recorded by means of changes in high-contrast visual acuity (primary endpoint). Secondary endpoints are changes in a colored-contrast test, in 2.5% low contrast visual acuity, the peak conduction latency of visual evoked potentials, and retinal layer thicknesses and vessel densities measured in optical coherence tomography and optical coherence tomorgraphic angiography. These physiological parameters should help to understand the underlying processes of a potentially altered visual performance.