View clinical trials related to Multiple Sclerosis.
Filter by:A randomized open clinical trial to assess the added value of a comprehensive rehabilitation program on fall prevention and improve participation and activities of daily living. Baseline assessment, 6-month experimental intervention (experimental group) vs. usual rehabilitation programs and assessment at end of treatment and six months after treatment will be performed.
A DIGITAL THERAPEUTIC TO IMPROVE THINKING IN MULTIPLE SCLEROSIS WHO: 65 participants with a confirmed diagnosis of Multiple Sclerosis (MS) WHY: Purpose of the study is to compare the effect of 2 tablet-based brain training digital tools on important components of thinking (cognition). WHAT: Complete a set of tests (physical and cognitive) at baseline, 6 weeks and 14 weeks, and use one of two brain training tools on an iPad in your home, for 25 minutes a day, 5 days a week, for 6 weeks. WHERE: UCSF WEILL INSTITUTE FOR NEUROSCIENCES (675 Nelson Rising Lane, San Francisco, CA)
Every year thousands of persons suffer from brain damage resulting in anomia, that is, word finding difficulties affecting their ability to talk to other people. Anomia may be a result of stroke or of progressive neurological diseases such as Parkinson's disease or multiple sclerosis (MS). Word retrieval is dependent on a complex system of different neural networks and to name objects and activities can be affected to different degrees. The present project explores different aspects of naming ability in altogether 90 persons that has anomia related to stroke or to Parkinson's disease or MS. Furthermore, the communicative strategies and resources used by conversation partners in everyday conversational interaction and in care situations, affected by anomia are studied. Finally, the project includes a study of the effectiveness of a word finding training program based on stimulation of semantic and phonological networks in the brain, involved in the production of words. There is a lack of research on effects on communication from anomia in Parkinson's disease and MS and there is no research on anomia that investigates both object and action naming using a material adapted to the Swedish language. In the project quantitative and qualitative methods are used to explore and describe how persons with different neurogenic communication disorders can use different resources and communicative strategies to express themselves.
This study assessed the long-term safety and tolerability of ADS-5102 in subjects with MS and walking impairment who had completed the double-blind, placebo-controlled study of ADS-5102 in subjects with MS (ADS-AMT-301).
The aim of this study is to compare balance, functional mobility, core stability and trunk position sense in patients with Multiple Sclerosis (PwMS) and healthy controls and investigate the relationship between core stability and trunk position sense with balance and functional mobility in PwMS. Balance and mobility disorders are seen in various degrees in patients with Multiple Sclerosis (PwMS). Balance and mobility impairments are observed in the beginning with the early period and are one of the most common causes of disability in PwMS. Coordination between the peripheral sensory system, the central sensory-motor system and the musculoskeletal system which generates motor responses is required to provide balance. If one or more of these systems do not function properly, this results in deficiency in trunk stability and also causes balance and mobility disorders. It has been shown that balance and mobility disorders are mostly associated with loss of strength, spasticity, coordination disorders and sensory loss. Especially, it is known that strength of core are related to balance and mobility. Although core muscle strength is a significant element of trunk stability, position sense is also responsible for trunk stability. When literature is examined, there is no study which examines the relationship between balance and mobility with core muscles' strength and trunk position sense in PwMS. For all these reasons, we think that balance and functional mobility may be related to core stability and trunk position sense in PwMS
The objective of this trial is to measure the changes in neural activities during tDCS session using Magnetic Resonance Imaging (MRI). Participants (N=60) (20 Healthy Controls and 40 participants with neurological disorders, ie. multiple sclerosis) will be recruited to complete self-report measures and a brief cognitive assessment and then undergo an hour long stand-alone MRI scan while simultaneously undergoing tDCS stimulation. Methodology for this study is the administration of 15-minutes of of active tDCS during MRI acquisition compared to time without active tDCS.
The study is a two-year prospective observational study of patients treated with teriflunomide. The investigators will recruit up to 75 patients at baseline, based on the estimate that approximately 20% of these patients (~ 15 patients) will have evidence of disease activity at the end of the first year of treatment with teriflunomide, as determined by clinical evaluation (relapses) and MRI activity (new T2 hyperintense lesions). The investigators will assess the expression of a putative biomarker signature consisting of toll like receptor 2(TLR2), TLR4 and chemokine receptor 1 (CCR1) on CD4 T-subsets at baseline and at intervals on treatment with teriflunomide to determine whether expression of this biomarker signature on one or more CD4 T-subsets correlates with disease activity.
The upper limb (UL) plays an important role in the daily functioning of patients with Multiple Sclerosis (MS) and negatively influences their quality of life. Effective arm-hand training programs are needed. Various robotic systems have been developed for UL rehabilitation, mainly used in patients with stroke. Preliminary work in MS has focused on proximal sections of the arm. No study has evaluated the use of robotics for improving manual dexterity and their effects on cortical activity. The results of this research project could be relevant for the advancement of knowledge about UL functional recovery in individuals with MS and to determine the pattern of muscle activation underlying functional recovery.
The primary purpose of this study is to demonstrate pharmacokinetic bioequivalence of ofatumumab injected by Pre-filled Syringe (PFS) versus Auto-Injector (AI) devices and thereby establish a bridge between the ongoing Phase 3 program and the to-be-marketed drug-device combinations
This is a pilot feasibility study to examine the impact of providing a non-therapeutic resilience-based coaching telehealth program to the Support Partners (SP) of persons with MS (PwMS). Cognitive difficulties are a prominent feature in PwMS and prove to be a challenge for PwMS and the close family members that care for them. This study is a pilot telehealth program that aims to address these needs and improve the overall well-being of adults with MS and their Support Partners. A manualized program was developed utilizing the previous research study conducted literature, and the expertise and experience of the research study team. Funding was sought and obtained for 30 pairs to participate in the pilot. The 6-session program will address needs identified by this population and improve knowledge of cognition in PwMS. Study Objectives: Primary Objective: To conduct an evaluation of the feasibility of the resilience program by examining: 1. Recruitment (i.e. willingness to participate in program) 2. Participation rates and attrition 3. Participant satisfaction of the program. Secondary Objective (Support Partner): To assess the potential long-term benefits of the program to Support Partners of PwMS. Program benefits will be assessed using the following outcomes: 1. Sense of Competencies 2. Understanding of cognitive impairment in MS 3. Caregiver burden 4. Positive Emotions. Secondary Objective (PwMS): To assess the potential long-term benefits of the program to PwMS. Program benefits will be assessed using the following outcomes: 1. Relationship Satisfaction 2. Perceived Support.