View clinical trials related to Multiple Sclerosis.
Filter by:This study will identify a combination of disease severity markers (genetic, immunology, epigenetic, imaging) associated with disease severity and progression in a cohort of patients with multiple sclerosis.
The aim of the study (OVERACT_V1) is to verify if the isometric contraction of ankle plantarflexor and Hamstring muscles, induces a significant reduction of overactive bladder symptoms in patients with Multiple sclerosis.
Gut microbiota and multiple sclerosis Multiple sclerosis is a pro-inflammatory demyelinating disease of the central nervous system.
To evaluate the safety and tolerability of oral administration of PTL201 for relief of spasticity-related symptoms in 70 MS patients and to evaluate the efficacy of oral administration of PTL201 in relief of spasticity-related symptoms in MS patients. The pharmacokinetics of PTL201 in comparison to buccally administered Sativex will be evaluated in sub-study prior to the efficacy study.
Several recent studies have shown an increase in the signal intensity of the unenhanced T1-weighted magnetic resonance images in the brain of patients with normal renal functions and a breakdown of the blood-brain barrier. This hyper-intensity was specifically related to an accumulation of gadolinium based contrast agent. These studies were mainly conducted in patients with primary or secondary brain tumor. Multiple sclerosis is a particular model since it involves patients with a break of the blood-brain barrier, a long life expectancy, and who received many injections of contrast enhancing agents. In this context, it appears fundamental to know whether contrast agents accumulate in the brain for this disease. The French Observatory of Multiple Sclerosis is particularly suited to test this hypothesis, with homogeneous MRI data over several centers in France, and optimized sequences of 3D-T1 without injection. The purpose of this study is to evaluate the accumulation of two commonly used gadolinium based contrast materials (Dotarem and Multihance) in patients with multiple sclerosis, who received at least 5 injection of exclusively one of these contrast material.
In Multiple Sclerosis the multiplicity of physical and psychological dysfunctions have been shown to exhibit a number of life-altering problems such as fatigue, limb weakness, alteration of upper extremity fine motor coordination, loss of sensation, spasticity. These problems affect performance of many daily living activities (ADL) such as dressing, bathing, self-care, and writing, thus reducing functional independence and self-rated quality of life. Twenty people with Multiple Sclerosis will receive neurorehabilitation treatment comprising a combination of aerobic training and upper limb task-oriented training. The aim of this pilot crossover study is to evaluate the effects of neurorehabilitation on upper limb performance and on fatigue in People with Multiple Sclerosis.
Fifty patients who were referred to receive physiotherapy and 20 healthy volunteers will be participants of the study.Participants with multiple sclerosis will evaluate with the following assessment tools: Modified Ashworth scale will use to evaluation of severity of plantar flexor spasticity. Plantar pressure distribution parameters will assess with dynamic pedobarography.
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.
This trial consists of application of little devices (named Equistasi®) generating focal vibrations to treat spasticity in neurological patients, affected by multiple sclerosis. The expected effects are on gait and postural instability.
Multiple sclerosis (MS) is characterized pathologically by demyelination, axonal loss, and glial scar formation. Clinically, most patients have a relapsing-remitting course of MS (RRMS) that over time may become progressive without remissions - a secondary progressive MS (SPMS). About 15% of patients have a progressive course from onset which is called primary progressive (PP). Currently, there is no approved treatment for PPMS and for SPMS only therapy with mitoxantrone showed mild effect. Thus, more effective therapies need to be developed for treatment of SPMS and PPMS. Methotrexate (MTX), an anti-metabolite, has been in clinical use since 1948 when it was found to produce temporary remission of acute childhood leukemia. There are accumulating evidences that in progressive MS patients there are follicular lymphoid structures in the meninges and in the Virchow-Robin spaces. Therefore, intrathecal therapy may target the pathological follicular lymphoid activity. The safety of intrathecal MTX (ITMTX) has been demonstrated by its widespread use in treating lymphoproliferative diseases and leptomeningeal metastases. Sadik et. Al. reported about the feasibility and safety of using intrathecal methotrexate (ITMTX) as a treatment for unresponsive patients with progressive forms of MS. In their open label study they found that ITMTX may have a beneficial effect in progressive forms of MS and that it was well tolerated with no serious adverse events. The investigators aim is to evaluate the efficacy , safety and tolerability of intrathecal methotrexate administration every 3 months in progressive 30 patients with progressive MS. The investigators will evaluate clinical, laboratory evaluation of the blood and cerebrospinal fluid as well as the MRI scans of the participants. Each patient will be treated 4 times for 1 year with the option to continue for another 1 more year with the same protocol.