Active clinical trials for "Sclerosis"

Exercise therapy and increased physical activity in persons with Multiple Sclerosis (MS) improves mobility, muscular strength, physical fitness and fatigue without increasing relapse rate. As such, physical activity and more particular exercise therapy have become an important part of MS rehabilitation. Despite the fact that the positive effects of exercise therapy in MS are obvious only 43 percent of the MS community reports to participate in an exercise program4. Therefore, new exercise therapy approaches that further optimize rehabilitation, improve exercise adherence and promote participation in physical exercise in MS are interesting to explore. Therefore, the randomized controlled trial investigates two types of exercise interventions (classic progressive vs periodized) with or without the addition of ergogenic supplements (beta-alanine vs placebo).

Physical activity is now recognized as a therapy for Multiple Sclerosis (MS) that not only improves physical fitness and functional mobility, but there is some evidence that it may also positively influence the more invisible symptoms of the disease that represent "brain health" - fatigue, depression and cognitive impairment. One important feature of physical activity is that it reduces inflammation throughout the body and the brain. The goal of this research is to determine whether people with MS feel less fatigue, depression and cognitive impairment after a program of exercise because there is a decrease in the state of inflammation in the brain.

Even though, current treatments including IVIG, corticosteroids, biological agents can provide positive effects on MS symptoms, MS cannot be cured completely today. Therefore, in addition to the available medical treatment options, patients may tend towards complementary and integrative therapies. Relaxation techniques are one of the non-pharmacological and side-effect-free therapy options that are currently used to alleviate the symptoms of many different chronic diseases. Progressive muscle relaxation exercise (PMR) and Benson relaxation technique (BRT) are two common types of relaxation techniques recommended for symptom management in chronic diseases owing to simple to learn and apply compared to other complementary and integrative methods for patients. PMR is uncomplicated and low-cost method, originally designed by Jacobson (1938), which helps individuals to feel calmer through consecutive muscle tension and relaxation of a muscle group. This method can relieve muscle tension, facilitate sleep, and reduce severity of pain and fatigue. There are studies in the literature reporting the positive effects of PMR on fatigue, sleep quality, quality of life, anxiety and stress in MS patients. One of these techniques which is well tolerated is BRT, designed by Herbert Benson in the 1970s as a nonpharmacologic and behavioral method. This technique led to relaxation using mental imagery and mediation. BRT creates a relaxation influence in the body by decreasing the sympathetic nervous system activity and increasing the parasympathetic nervous system activity. There are few studies in the literature reporting that BRT is beneficial on pain and fatigue in MS patients.To the best of our knowledge, there is no study on the impact of relaxation techniques on pain, fatigue and kinesophobia in MS patients. The aim of this study was to examine and compare the effects of PMR and BRT on abovementioned symptoms in MS patients.

Multiple sclerosis [MS] is a prevalent neurological disease that is the leading cause of irreversible neurological disability among young women and the second leading cause of disability among young men in the United States. This disease results in the progressive loss of walking mobility and substantial worsening of cognition, symptoms, and quality of life over time. There is evidence that physical activity is beneficially associated with aerobic fitness and brain structure and function in persons with MS. Nevertheless, this population is strikingly sedentary and physically inactive. This highlights a vital opportunity to improve aerobic fitness and brain health by developing behavioral interventions that increase physical activity. To that end, this project is a Phase-II randomized control trial for examining the efficacy of a behavioral intervention that is based on social-cognitive theory and delivered through the Internet for increasing physical activity and, secondarily, improving aerobic fitness and brain structure and function in persons with MS.

Title Prospective, open label, single arm, non-randomized, non-comparative feasibility study of Rex robot assisted rehabilitation exercise to enhance balance, mobility and upper limb function in people with Multiple Sclerosis "RAPPER III - MS Objective The objective of this study is to evaluate the feasibility and safety of the REX Robot when used for rehabilitation with people who have moderate to severe mobility restrictions due to MS. A secondary objective of the study is to explore the acceptability of the device to people with MS and its impact on impairments and functions commonly affected by MS. Study Sponsor Rex Bionics, Plc. Study Device REX Robotic powered exercise system Primary Endpoint • Completion of a transfer, stand, balance and walk rehabilitation session. Unexpected Serious Adverse Events Secondary Endpoints Completion of a transfer, stand, balance and walk rehabilitation program over Six-weeks The Number of approached, screened, and eligible potential participants. Reasons for Ineligibility. (See 'RAPPER III- MS 007 Screening Loss Analysis REV 0 FINAL') Functional Ambulation Classification (FAC) 1 Activities-specific Balance Confidence (ABC) Scale 2 Modified Falls Efficacy Scale (MFES) 3, 4, Multiple Sclerosis Walking scale (MSWS-12) 5 Multiple Sclerosis Impact scale (MSIS-29) 6 ARMA (arm activity measure) 7 Berg Balance Scale 8 Timed unsupported steady stand (TUSS) 9 Pain scale questionnaire (Visual Analog Score VAS) 10 Modified Ashworth Score 11 Spasticity Impact Scale 12 Epworth Sleepiness Scale (ESS) questionnaire 13 EQ-5D Health State Questionnaire 14 Questionnaires may be administered in person, by phone, email or in the post.

BCD-132 is a humanized monoclonal antibody against CD20. BCD-132-1 is a Multicenter Open-Label Non-Comparative Dose Escalation Study (Phase 1) of the Pharmacodynamics, Pharmacokinetics, Safety, and Immunogenicity of BCD-132 (JSC BIOCAD, Russia) in Patients with Relapsing-Remitting Multiple Sclerosis.

Peripheral blood mononuclear cells (PBMC) and platelets could be interesting ex vivo models to study brain diseases. Indeed, there is no access to neurons from patients. However, PBMC can exhibit different physiopathological mechanisms that are ubiquitous (i.e. oxidative stress, mitochondriopathy with energy metabolism, inflammation, protein folding, iron metabolism and programmed cell death ...). The platelets are pivotal in the healing system with large range of growth factors. A new therapeutic concept of conservative iron chelation with deferiprone for neuroprotection is under development. The action of deferiprone on the different mechanisms and notably the oxidative stress are to obtain from a collection of PBMC and platelets from patient having Parkinson's disease and Amyotrophic lateral sclerosis and healthy controls to study ex vivo. PBMC and platelets will be stored for future analyses.

Study design is double-blind, randomized, placebo-controlled study in 3 parallel groups with the use of active comparator and placebo. Total duration of therapy of about 2 years. Study hypothesis is equivalence of efficacy and safety of the investigational drug BCD-033 original drug Rebif®.

This multicenter, randomized, open-label study will evaluate the immune response to vaccines (tetanus toxoid [TT]-containing adsorbed vaccine, 23-valent pneumococcal polysaccharide vaccine [23-PPV] either unboosted or boosted with 13-valent pneumococcal conjugate vaccine [13-PCV], influenza vaccine, keyhole limpet hemocyanin [KLH]) after administration of a dose of ocrelizumab (OCR) in participants with relapsing multiple sclerosis (RMS).

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.