View clinical trials related to Multiple Sclerosis.
Filter by:In Multiple Sclerosis (MS) gait disorders represent one of the most disabling aspect that strongly influence patient quality of life. The improvement of walking ability is a primary goal for rehabilitation treatment. Current promising rehabilitative approaches for neurological disorders are based on the concept of the task-specific repetitive training. Hence, the interest in automated robotic devices that allow this typology of treatment for gait training. However, studies on the effectiveness of such methodologies are still poorly numerous in terms of functional improvement in MS patients. The aim of this controlled cross-over study is to evaluate the effectiveness of a Lokomat gait training in patients affected by Multiple Sclerosis in comparison to a ground conventional gait training.
Imaginative Distention (ID) is proposed as supportive and integrative intervention to cope with fatigue, (principal end point), to cope with insomnia, stress perception and to improve QoL of pw MS, insomnia pw and health care personnel. ID is safe and it can be easily learned and practised without of any particular instrument and also feasible in disabled pw. This technique allows persons to experience the body as a source of well-being and not just fatigue, pain and disease. ID can become a self managed tool of empowerment to cope with MS, to reduce its negative impact on daily life and job performances. Adherence to pharmacological therapies could be improved using ID. For pw MS ID could have specific and customizable rehabilitation implications to improve motor disability, as already seen in stroke patients. The principal end point of the trial is verify ID efficacy on fatigue and its specificity on pw MS at the end of the training. For this reason, ID efficacy will be tested in comparative terms too. Among all possible comparison populations, we selected: pw insomnia, which is stress related disease and health personnel, because at risk of stress. The control groups comparison permits to evaluate the specificity of ID on pw MS. The three groups are randomised to intervention or waiting list. The training is 8 weekly session long. Self administered questionnaire are filled by participants before and after the training, and 3-6 months later. The extent of change in outcome measure monitored in each exposed group vs. unexposed will allow to separate the non-disease specific effect of ID from the MS-specific effect. The difference in estimates will allow to determine the extent of the true effect of ID in pw MS. All outcome measure will be compared among all groups mentioned and over time. The study would identify also the most important outcome measures for MS patients questioning them in a focus group. This aspect is very important because could differs from which clinicians and researchers think about.
In recent years, studies have brought knowledge of the difficulties of social cognition in Multiple Sclerosis (MS). The brain tissue alteration at the origin of these difficulties in social cognition mechanisms remain poorly understood. Although recent behavioral studies indicated social disturbances in many of these patients, functional studies investigating specific theory of mind in MS are lacking. The use of new techniques for morphological and functional Magnetic Resonance Imaging (MRI) can identify brain activation networks, mapping the achievement and tissue integrity may be related to disorders of social cognition and cognitive. The investigators propose to study social cognition in MS patients using morphological and functional imaging to determine the mechanisms underlying phenomena such as cerebral compensation and its relationship with cognitive impairment.
The purpose of this study is to evaluate the effect of a medication called Acthar on recovery from multiple sclerosis-related relapses that impact cognition.
Balance disorders are frequently observed in patients with Multiple Sclerosis (MS) and the deterioration of the static and dynamic control of balance is an important and basic symptom of disease progression. Measure balance disorders with force platforme requires personnel and represent a significant cost. The platform Nintendo Wii Fit represents a valid economic alternative
The study design was a parallel-group randomized trial with equal randomization. Recruitment and enrollment were conducted between January 2013 and March 2013. At base-line, cognitive data was collected. Afterwards, the participants were randomly allocated to either the REHACOP group or the Control group. During 3 months the intervention with REHACOP program took place and at follow-up patients were again re-evaluated to evaluate the change in cognitive measure. Post-treatment assessment (finished by July 2013) was performed within the first week after completing the intervention. Optional enrollment in pre-post neuroimaging will also allow us to look at changes in the brain. Objective: To examine the efficacy of an integrative cognitive training program (REHACOP) to improve cognition of patients with Multiple Sclerosis (MS).
Up to 95% of individuals with Multiple Sclerosis report experiencing cognitive fatigue, characterized by a lack of energy, feelings of exhaustion, an the perception that one is unable to partake in daily activities. The goal of this project is to test whether methylphenidate (MP), a well-known psychostimulant, can effective treat fatigue experienced by individuals with MS. The current study will test the effect of MP on MS fatigue through a clinical trial. Every participant in the study will be exposed to both the drug and the placebo for a period of time. Both the investigators and participants will be unaware whether participants are receiving the drug or the placebo. Upon successful completion of the study, physicians will be able to evaluate the potential prescription of MP to treat fatigue in persons with MS based on solid research evidence. Importantly, MP is already an FDA approved widely used medication in multiple clinical populations.
This Phase 2 study is intended to serve as a proof of concept for potential treatment with laquinimod in patients with PPMS. The study is also aimed at evaluating 2 doses of laquinimod in this population.
The main objectives of Part 1 are as follows: To evaluate the safety, tolerability, and efficacy of BG00012 in pediatric subjects with RRMS, as compared with a disease-modifying treatment and to assess health outcomes and evolution of disability. The primary objective of Part 2 is to evaluate the long-term safety of BG00012 in subjects who completed Week 96 in Part 1 of Study 109MS306. The secondary objective of Part 2 is to describe the long-term MS outcomes of BG00012 in subjects who completed Week 96 in Part 1 of Study 109MS306.
First in human study to assess the tolerability and safety profile of treatment with dendritic cell in patients with multiple sclerosis or neuromyelitis optica.