View clinical trials related to Multiple Sclerosis.
Filter by:The purpose of this protocol is to collect data from approximately 15 multiple sclerosis (MS) patients who are participating in a pilot cooking course. This online cooking training program is currently available to general public through the company "Rouxbe" for a fee. Data gathered from this cooking course will be used to develop novel ways of promoting healthy eating habits in people with MS. The investigators will use the data from blood tests, questionnaires, and demographics to assess the feasibility and effectiveness of this program. This is an outpatient program designed for people with MS that would occur regardless of whether participant data is collected. This pilot cooking course will run for approximately four weeks. The investigators intend start to the training course in mid-March 2015. Subjects will be followed prior to course initiation for baseline data gathering, at four weeks from baseline, twelve weeks from baseline, and twenty-four weeks from baseline.
Interleukin-2 (IL-2) was initially discovered and used as a stimulator of effector T lymphocytes (Teffs), but is now viewed as a very promising immunoregulatory drug having the capacity to stimulate regulatory T cells (Tregs). At low dose, Il-2 tips the Treg/Teff balance towards Tregs. Recently, it has been shown that Tregs of MS patients have reduced proliferative potential. MS-IL2 will assess the safety and biological efficacy of low-dose IL2 as a Treg inducer in a Relapsing-Remitting Multiple Sclerosis (RRMS), with the aim to stimulate Treg and define potential clinical benefits
Our primary hypothesis is that a two weeks high-intensity task-oriented circuit training followed by a structured 3 months home exercise program would have higher benefits compared to a delayed-treatment group as control in people with multiple sclerosis and mild to moderate gait impairment. Our secondary hypothesis is that there could be retention of clinical gains in subjects that underwent TOCT plus structured 3 months home exercise program.
Gait disabilities affect personal activities and quality of life of progressive multiple sclerosis (MS) patients. A robot-driven gait orthosis allowing a more effective support of walking movements and imitation of a nearly normal gait pattern during treadmill training at a higher speed has been developed and recently introduced in clinical settings. However, until now few studies evaluated the effects of Robot-Assisted Gait Training (RAGT) in a group of stroke, spinal cord injury and MS subjects. In addition, the training-induced neural and biological changes potentially related to the mechanisms of recovery remain undefined. The primary aims of this study are: to test the feasibility of RAGT in a group of progressive severely disabled MS patients and to test the hypothesis that this intensive intervention could have higher benefit, compared with conventional therapy alone, in mobility improvement as assessed by the Timed 25 Foot Walk (T25FW) The secondary aims of this study are: to determine whether fatigue, Quality of life, balance and locomotor function are improved by RAGT; to determine whether gait training influences markers of plasticity including clinical and circulating biomarkers to search for a possible correlation between clinical outcomes and clinical and circulating biomarkers
Alemtuzumab is the active agent of a drug called Lemtrada®. In the European Union, Lemtrada® is approved for the treatment of a particular form of multiple sclerosis (the so called relapsing remitting form). The excellent efficacy of the drug justifies its administration albeit a high risk of considerable side effects. In this context, so called secondary (occurring after the administration of Lemtrada®) autoimmune diseases are of particular importance. In these diseases the immune system acts against structures of the body itself; the reasons are still unknown. Autoimmune diseases may even occur several years after treatment with Lemtrada®. Therefore, patients who once received the drug need to undergo intensive long term health monitoring. This study aims to elucidate which mechanisms cause to the positive and negative effects of Lemtrada®. The study includes patients only, who suffer from multiple sclerosis and are indicated to be treated with Lemtrada®. All patients receive the drug according to the official recommendations.
This pilot study will evaluate for the presence of neuromuscular junction (NMJ) defect in women with motor fatigue in multiple sclerosis by Single Fiber Electromyography (SFEMG) using the concentric needle electrode.
The investigators hypothesize that adipokine (soluble molecules produced by the adipose tissue) levels are altered in MS compared to control subjects. Additionally, the investigators hypothesize that calorie restriction (CR) will improve clinical recovery from an MS relapse, ameliorate the adipokine and metabolic-inflammatory profile in MS, and enhance immune-regulatory mechanisms. This is a pilot study to determine the effects of CR in MS patients during an acute MS relapse (Acute CR phase) and for 6 months afterwards (Chronic CR phase). Calorie restriction will be achieved by following a regimen of alternate day fasting. The investigators will evaluate clinical outcomes and blood biomarkers at different time points.
The primary objective of this study is to evaluate whether montelukast can reduce the severity of gastrointestinal (GI) events, measured by the Gastrointestinal Symptom Rating Scale (GSRS), after oral administration of dimethyl fumarate (DMF) in participants with relapsing forms of Multiple Sclerosis (MS). The secondary objectives of this study are as follows: To evaluate whether montelukast after oral administration of DMF in participants with relapsing forms of MS decreases discontinuations due to GI events and reduces the number of participants taking symptomatic therapies for GI events; To investigate the effect of montelukast on the incidence of flushing events after oral administration of 240 mg DMF in participants with relapsing forms of MS.
The primary objective of this study is to evaluate the effect of BG00012 (dimethyl fumarate) on brain magnetic resonance imaging (MRI) lesions in pediatric participants with relapsing-remitting multiple sclerosis (RRMS). The secondary objectives of this study are to characterize the pharmacokinetics of BG00012 in pediatric participants with RRMS and to evaluate the safety and tolerability of BG00012 in pediatric participants with RRMS.
The purpose of this study is to determine whether a training program in the use of ambulatory assistive devices (such as canes, walkers, etc) can reduce falls and increase functional mobility and neural connectivity in people with Multiple Sclerosis.