View clinical trials related to Multiple Sclerosis.
Filter by:Multiple sclerosis (MS) is an inflammatory chronic disease of the central nervous system. Patients are suffering from balance and gait impairments at the early stage of the disease. 85 % of the MS patients report gait disorders, which impact their autonomy and their quality of life and increase the risk of fall. The three-dimensional analysis of the walking by a motion capture system associated with force platforms allows the quantification of the complex walking disorders, to look for the cause, as well as side effects such as compensation strategies. According to the 2006 report of the French National Authority for Health, the 3D analysis of walking is essential in chronic pathologies to evaluate and quantify gait disorders. This analysis allows the functional follow-up of the patients throughout their rehabilitation. Some studies, on a small and heterogeneous population of MS patients, showed changes during the walking concerning spatiotemporal, kinematic, dynamic parameters and muscular activation of lower limbs at early stages of the disease. Only two studies evaluate the joint power during walking in MS patients. However, these studies have some limits. The 3D analysis of the walking proposed in this study would allow the biomechanical characterization of the gait impairments of MS patients through tasks such as walking, gait initiation and orthostatic posture. This methodology would contribute to adapt treatments and the rehabilitation care, at an early stage of the disease. From a functional point of view, the gait initiation is an interesting dynamic task to be evaluated. Indeed, it represents the transition between the upright posture and the stabilized walking. Throughout this complex task, a stereotypical motor program is set up during a first phase of anticipatory postural adjustments, which allows the creation of dynamic conditions essential for the execution of the first step. The gait initiation is little documented for MS patients despite the risk of fall clinically highlighted. The articular power during the gait initiation was never estimated in MS patients. On the other hand, there is no study establishing correlations between the Expanded Disability Status Scale functional features and the impairments of the gait initiation.
Prevalence of lower urinary tract symptoms (LUTS) in patients with MS increases with disease duration. Current management of urinary clinical symptoms in MS is mainly conservative. Its long-term outcome is often poor because of the progressive disease course and the treatment related side effects. Alternative therapeutic options are botulinum toxin injections, electrical stimulation of dorsal penile/clitoral nerve, and sacral nerve modulation. Posterior tibial nerve stimulation (PTNS) is a second minimally-invasive method of electrical stimulation. Multiple benefits may derive from the development and validation of a dedicated protocol of a new self-activated neuromodulation therapy, which may improve therapy compliance/effectiveness, quality of life and social life in MS patients with refractory LUTS. Furthermore, it may contribute to reduce outpatient visits, health costs and work absenteeism. To investigate the performance and safety of the medical device eCoin™ for the treatment of refractory LUTS in patients with MS over a period of 6 months.
This is a proof of concept, randomized, double-blind, placebo-controlled, 2-arm, parallel group study of Isoxsuprine in MS subjects experiencing a typical relapse. Evidence from preclinical stroke models and experimental allergic encephalomyelitis suggest that isoxsuprine hydrochloride may have neuroprotective activity and reduce disability in animal models. Given its potential neuroprotective effects in CNS injury models, the investigators propose to test it as a safe, tolerable add on treatment for acute relapses in patients with relapsing forms of MS.
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.
The study is designed to validate the accuracy of steps detected by a commercially available smartwatch in persons with multiple sclerosis. Specifically, the investigators examine whether a smartwatch can detect steps accurately during slow, comfortable and fast overground walking. The total steps counted by the smartwatch will be compared to those counted by an accelerometer commonly used in clinical studies and the actually walked steps.
The purpose of this study was to investigate the potential effects of cladribine on the pharmacokinetics (PK) of monophasic oral contraceptive microgynon® by assessment of its constituents, ethinyl estradiol (EE) and levonorgestrel (LNG).
Interventional study with minimal risks and constraints, prospective, monocentric.
Based on the fact that the fundamental pathogenic mechanism of the Multiple Sclerosis (MS) disease is neuroinflammation, related in turn to cellular oxidation and mitochondrial alterations, this project aims to assess the impact of a nutritional intervention on the evolution of MS patients in their different slopes. To this end, the administration of medium-chain triglycerides, whose metabolism produces the increase of ketone bodies in the blood, will be carried out; and another of the antioxidant polyphenol epigallocatechin gallate. This procedure will be applied over 6 months, based on a isocaloric Mediterranean diet, with a population for the study of 80 patients with different variants of the disease. The assessment of the intervention will be carried out every two months, at motor-functional, anthropometric, cognitive and emotional, inflammatory, and oxidation levels.
The purpose of this study is to evaluate the safety and efficacy of elezanumab in participants with relapsing Multiple Sclerosis (RMS).
WHO: 40 participants with a confirmed diagnosis of Multiple Sclerosis (MS) able to engage in moderate physical activity. WHY: The purpose of this study is to evaluate two computerized brain training tools, which include light physical activity, to see if they can help improve cognitive functions, such as memory and attention, for patients with MS. WHAT: Complete a set of tests (physical and cognitive) at baseline, wear a Fitbit Flex device at home for the duration of the study, 3 supervised sessions for 4 weeks at UCSF, one visit for physical and cognitive tests at one week after the final supervised session, and one final visit 6 months after the final supervised session. WHERE: 20 participants at the UCSF Weill Institute for Neurosciences (675 Nelson Rising Lane, San Francisco, CA); 20 participants at Lausanne University Hospital (Rue du Bugnon 46, 1005 Lausanne, Switzerland)