Active clinical trials for "Multiple Sclerosis"

Objective of this protocol will be to evaluate the parameters related to the function of the musculoskeletal and cardiorespiratory system, through a rehabilitation and training program for people with acquired central nervous system and multiple sclerosis. The study will consist of volunteers with acquired CNS lesions and multiple sclerosis of both sexes, between 18 and 85 years old, and who wander with or without aid devices, randomly divided into 3 groups: Group 1 (cardiopulmonary treatment), Group 2 (cardiopulmonary treatment and transcranial photobiomodulation application) and Group 3 (cardiopulmonary treatment and placebo laser). All groups will receive aerobic training on a treadmill (Moviment®) with the aid of a suspension equipment (BrainMov® Physical Activity Station). The transcranial photobiomodulation (laser diode, λ = 810 nm, beam area 0.028 cm², power of 100 mW, power density of 3.5 mW / cm², energy of 3 Joules / point and energy density of 107.1 J / cm2) will be applied on the skin / scalp and the International System 10-20 at points F7, F8 and AFz will be used as reference for irradiation. Muscular activation, heart rate variability, lung volumes and capacities, fatigability, exercise tolerance, cognition and quality of life will be evaluated before, during, at the end and after two months of rehabilitation. The treatment proposed in this study, using transcranial photobiomodulation, is expected to improve muscle, sensory, cardiorespiratory, cognitive functions and to interfere positively in the quality of life of the volunteers.

Study design: Phase II, multicenter, randomized, sham-controlled, single-blind, parallel arm, multicenter study to test the hypothesis that home-based exergames is not inferior to home-based cognitive rehabilitation delivered by a software application (app) for mobile devices and both interventions are superior to a placebo-analogue cognitive intervention in improving cognitive function and reducing cognitive-motor interference in people with multiple sclerosis (MS). Procedures: Participants will be randomized in a 1:1:1 ratio to receive an 8-week home-based training with exergames (intervention of interest) or adaptive COGNI-TRAcK (comparator intervention) or sham COGNI-TRAcK (placebo-analogue intervention). Study assessment will be done at study enrolment (baseline), at the end of the 8-week intervention period (immediate post-training, Week 8) and after 16 weeks from randomization (post-training follow-up, Week 16). Investigational interventions: Exergames: home-based repetition of several games delivered by the Nintendo © Wii Balance Board, a commercial off-the-shelf video game console for re-training of balance and postural strategies Adaptive COGNI-TRAcK: adaptive (i.e. automatic adjustment of tasks difficulty) working memory training delivered by a customized application software for mobile devices to self-administer at-home Sham COGNI-TRAcK: non-adaptive (i.e. constant difficulty level) working memory training delivered by the same app as afore described Primary endpoint: changes at the Symbol Digit Modalities Test (SDMT), a measure of sustained attention and information processing speed. Secondary endpoint: changes at the BICAMS (z-scores), a brief, practical and universal assessment tool for cognitive impairment in MS. Additional endpoints: magnitude of cognitive-motor interference estimated as dual-task cost of balance and walking. Sample size estimation: The investigators estimated a pre-defined 8-point non-inferiority margin, based on a significant effect of the COGNI-TRAcK in inducing an about 8-point mean increase at SDMT score (with respect to a sham intervention). Accordingly, 35 participants per arm are required to ensure, with an approximately 85%-power level, that the lower limit of a one-side 95% confidence interval will be above the pre-defined non-inferiority margin. Therefore, considering also a drop-out rate of 25%, a total of 132 subjects should be enrolled.

This study is aimed to test the efficacy and feasibility of an immersive virtual reality (VR) rehabilitation programs to improve upper-limb motor functions in 24 patients with multiple sclerosis (pwMS), characterized by moderate to severe upper-limb motor dysfunctions. In particular, this study will evaluate the efficacy of VR as novel opportunities to increase treatment engagement and rehabilitation effects. The effectiveness of the rehabilitation program will be assessed using both clinical tests and state-of-the art motion capture system for human movement analysis.

This study is a national, prospective, multicenter, non-interventional (observational) study with the aim to describe the impact of Siponimod treatment in a real-world SPMS population in Switzerland who are treated with Siponimod as per Swiss label.

Several studies have reported high rates of depression in people with MS. Depressive symptoms represent a serious threat to quality of life and well-being. Furthermore, findings from the literature suggest that mechanisms underneath depressive features and loss of physical functions in MS could be related. The current study aims at investigating the feasibility of a fairly new type of psychotherapy known as "eye movement desensitization and reprocessing" (EMDR) on depression in people with MS. The goal of this intervention is to reduce the long-lasting effects of distressing memories by developing more adaptive coping mechanisms, through bilateral sensory stimulation. Together with the study on clinical measures, brain mechanisms of change will be assessed with MRI. Fifteen depressed or mildly depressed people with MS will be recruited. Participants will be assessed for depression, and quality of life, before and after the intervention. Participants will also undergo an MRI for brain structural and functional assessments before and after the EMDR intervention. The main aim of the study is to verify that EMDR is a feasible psychotherapeutic approach for people with depression and MS and to collect preliminary data on the efficacy of this type of intervention in reducing the depressive symptoms and improving the quality of life. The study, however, will not be limited to the analysis of outcome differences. The use of MRI assessments, in fact, will allow to explore possible brain change modifications related to depression reduction and/or symptoms modifications.

Multiple Sclerosis (MS) is a chronic disease affecting young adults. Impaired balance, walking, reduced physical activity and participation in employment are common, however, less integrated in the health care. The researchers have developed a multidisciplinary intervention and pathway delivered across health care levels targeting the promotion of balance, walking, physical activity and participation in employment. The research team will perform a pilot feasibility Randomized Controlled Trial (RCT) and interviews to investigate the feasibility of the new intervention compared to a standard care for individuals with lower levels of disability.

This study aims to investigate the effect of a 2-week trial of bright light therapy (BLT, 10.000 lx) on fatigue in multiple sclerosis (MS) patients. In this randomised placebo-controlled trial, the effect of bright light therapy will be compared to dim red light. MS-fatigue is quantified by patients using a visual analogue scale (VAS) and activity levels, subjective and objective sleep parameters and daytime sleepiness are measured.

This is a pilot study to compare cognitive performance in two groups of subjects with multiple sclerosis; those with normal glucose tolerance and those with impaired glucose tolerance. The study consists of a 2 hour oral glucose tolerance test, patient reported outcomes, a series of cognitive functioning tests, and outpatient physical assessment using a pedometer.

The Multiple Sclerosis Functional Composite (MSFC), a reliable and well-validated instrument, was developed as a multidimensional quantitative measure of neurologic disability in MS. However, the traditional form of the MSFC has various limitations, including the need for MS patients to be assessed in a clinical setting by trained technicians, which requires additional human resources and time in a clinical routine practice setting. Furthermore, storage of MSFC data for longitudinal comparison is difficult and time consuming. The MS Performance Test (MSPT) software tool is designed to objectively quantify the major motor, visual and cognitive function data, and quality of life outcomes, associated with MS and related disorders. This is a single center observational study that will examine the use of the MSPT in a real world setting. Study enrollment will occur at one center in Switzerland.

Multiple Sclerosis (MS), the most common non-traumatic cause of neurologic disability in young adults, affects mobility and ambulation in the majority of patients. Nearly 50% of persons with MS will require an assistive device to ambulate within 10 years of diagnosis. A subgroup of MS is Primary Progressive MS, which manifests with gait disturbances over 80% of patients in the long term. In addition to altered gait, nearly 70% of patients will experience cognitive deficits during the course of the disease. Therefore, actions that facilitate patient involvement in finding solutions for personalized management of disease and disability are needed. Although immunomodulatory drugs offer some benefit in other types of Multiple Sclerosis, there is currently no effective treatment for Primary Progressive MS. A fundamental goal in the management of persons with MS is to maximize their ability to ambulate and perform safe and effective transfers in everyday life. In the last decade, research has increasingly centered on the effects of robot devices in the rehabilitation of patients with neurological diseases. This has led to the development of new robot-assisted gait devices engendered by virtual-reality systems, and several studies have demonstrated the positive effects that these devices have on gait endurance and quality of life in patients with neurological diseases and disability. The aim of this project is to develop and study the effects of a novel, cognitively intensive virtual-reality -based rehabilitation software application that simulates a real-world environment where a person can walk. The virtual-reality application is an upgrade version synchronized to a robotic device, the GEO System. The second aim is to compare the cognitive and motor effects of robot-assisted gait training with this application against training with robot-assisted gait training without virtual reality. The experimental group will receive robot-assisted gait training with the virtual-reality application and the control group will receive robot-assisted gait training All subjects will undergo training for 6 weeks (2 sessions/week) for a total of 12 sessions. Assessments before training, after training, and at follow-up will be performed using clinical and instrumental tests to compare the effects of training. Successful completion of the study may help patients to alleviate the impact of disability, increase their independence in activities of daily life, and improve their quality of life. Through new rehabilitative strategies that combine cognitive and motor training involving higher brain functions and motivation, patients will be stimulated to walk in a reality-based environment.