View clinical trials related to Multiple Sclerosis.
Filter by:The randomized controlled trial is aimed to study the efficacy of virtual reality (VR) and its impact on upper limb function and postural stability in people with mild to severe multiple sclerosis (pwMS). The conceptual idea is to compare two kinds of neuroproprioceptive "facilitation and inhibition" physical therapy, first in a real environment and second in virtual reality, in out-patient therapy that will be held in 15 hourly therapies, 2x a week in a period of two months. The efficacy will be assessed by a blinded independent clinical examiner using clinical examination and questionnaire survey before and in a week following the therapeutic intervention. The main focus is on upper limb gross and fine motor skills, trunk stability and stability, and sit to stand stability.
This clinical study aims to identify MS related beneficial plasticity and by contrast maladaptive reorganization in combination with elements of daily functional status as a response to a cognitive training program
Through this study, a group composed of multiple sclerosis patients will be compared to a healthy volunteers group to determine if the positive emotions recognitions is preserved in the first group.
The study aims at identifying the type of B and CD4 T cell subsets with pathogenic properties in the different clinical forms of multiple sclerosis. This research might open new therapeutic approaches for the treatment of multiple sclerosis particularly progressive MS.
This study will compare ofatumumab vs. European approved platform first line self-administered disease modifying therapy (DMT) in newly diagnosed MS patients
Multiple sclerosis (MS) is a chronic, inflammatory disease of the central nervous system. Lack of physical activity is common in people with MS (pwMS). This can lead to several comorbid conditions such as obesity, metabolic syndrome, osteoporosis, hypertension, diabetes and worse prognosis. An increasing number of studies suggest that physical exercise can play an important role in managing symptoms, preventing complications and comorbidities in pwMS, and may possibly be neuroprotective. However, doing exercise can be very challenging for pwMS who have moderate/severe mobility disability and who have problems with walking. In this project, the investigators will explore the use of a powered Exoskeleton as an exercise tool for people with moderate to severe difficulty walking due to MS. Powered Exoskeletons are wearable robots that offer opportunity to persons with lower limb weakness to stand and walk. The Exoskeleton-assisted training provides active training with potentially much less intervention needed from therapists. However, it is not clear whether pwMS can walk with a powered Exoskeleton at speeds and intensities sufficient to positively affect health and fitness outcomes. Thus, in this study, the investigators aim to explore whether using an Exoskeleton will enable people with MS to exercise at a moderate intensity and whether people with MS find this acceptable and safe to do on a regular basis. The investigators will also explore whether training with an Exoskeleton can improve walking. The investigators will train 12 patients with MS to walk with an Exoskeleton twice a week for 8 weeks. The investigators will compare the effects with another group of 12 patients who will do exercises with a fitness instructor twice a week for 8 weeks. The investigators will study whether walking with Exoskeleton is better than fitness training in terms of fitness outcomes, walking and cognitive, psychological factors.
The investigators have previously shown that youth with MS are very inactive, and that vigorous physical activity is associated with higher levels of well-being and lower MS disease activity in youth. Yet, no effective physical activity interventions have been developed for youth with MS to date. The investigators have taken input from youth with MS to create a Smartphone-based app (the ATOMIC - Active Teens with Multiple Sclerosis - App) that provides tailored physical activity information and coaching, provides tools to increase social connectedness, and promotes physical activity. This proposed research will therefore address the problem of inactivity in youth with MS by studying an intervention to increase physical activity.
The study seeks to investigate whether 24 weeks of power training has neuroprotective effects in older PwMS. Additional purposes are to examine the effects of 24 weeks power training on physical function, cognitive function and neuromuscular function. Further, it is investigated whether the potential effects of power training are maintained after 24 weeks of follow-up.
This nested project of the Swiss Multiple Sclerosis Cohort (SMSC) is to assess the severity of COVID-19 and the magnitude of antibody response after infection with Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) in patients already treated or not with various immunotherapies for multiple sclerosis followed in the framework of the SMSC.
The Multiple Sclerosis (MS) Leadership and Innovation Network (MS-LINK™) is comprised of networks working cooperatively to advance Multiple Sclerosis (MS) science and improve MS participant outcomes. In this study participants will be followed from the time of consent through the lifetime of the study (currently 3 years), unless the participant chooses to withdraw from the study. Collection of participant's medical history, including MS and treatment history, will be automated through extraction from the participant's electronic medical record (EMR) and other health information systems (for example, radiology). Participants will complete patient-reported outcomes (PROs) and other health-related information digitally. Participating participants will have access to their own data in an ongoing manner via a web-based Participant Portal.