View clinical trials related to Demyelinating Diseases.
Filter by:Knowledge of the evolution of multiple sclerosis (MS) and its long-term prognostic factors is essential to guide the therapeutic management. However, it remains partial and concerns above all data collected during the first years of the disease. The evolution towards disability can only be assessed after a follow-up of more than 10 years and does not depend solely on the initial inflammatory activity of the disease. We propose to realize a standardized clinical assessment, an optical coherence tomography (OCT) and a cerebral MRI 15 years after the first clinical manifestation of the disease. Clinical and paraclinical assessment will consist in the realization of additional MRI sequences in order to obtain more precise information on cerebral lesions (unconventional parameters). Optical coherence tomography (new generation device) will also be performed on both eyes to describe the thickness of the different layers of the retina. A clinical evaluation will be performed with the Expanded Disability Status Scale (EDSS). This study aims: 1. to describe the current clinical situation of patients (e.g. percentage of patients with moderate or severe disability) 2. to explore the associations between MRI parameters, those measured with OCT and clinical characteristics (disability) 3. to explore clinical and paraclinical prognostic factors of pejorative evolution (disability, severe cerebral atrophy, etc.)
Our objective is to describe the pathologic and MRI findings in a series of patients with presumed demyelinating lesion of the central nervous system.
The neural circuits in our brains require a layer of insulation in order to transmit signals in a rapid and efficient fashion. This insulation is called White Matter and is comprised of a specific type of brain cell called an oligodendrocytes. Damage to brain white matter occurs following injury and in disorders like Multiple Sclerosis and results in sensory, motor, and cognitive problems. Currently there are no effective medical therapies to promote brain repair and reduce disability following damage to white matter. In this project, we hope to change the situation by encouraging the brain itself to generate new oligodendrocytes and thus new white matter. Our first step is to find measures sensitive to white matter growth.
The primary objective of this study is to assess the safety and tolerability of a single dose and multiple doses of BIIB033 administered to healthy adult Japanese participants. The secondary objectives of this study are to evaluate the pharmacokinetics (PK) profile of BIIB033 administered as single and multiple doses in healthy adult Japanese participants and to assess the single-dose and multiple-dose immunogenicity of BIIB033.
The purpose of this study is to determine whether intravenous immunoglobulin (IVIg) is an effective intervention for patients with diabetes, peripheral neuropathy, and demyelination on nerve conduction studies. All patients will receive both IVIg and placebo for 3 months each, with a 3 month washout period in between.
This is a prospective, non-randomised, non-blinded, single center study of children and adolescents with multiple sclerosis and clinically isolated syndrome to detect differences or early changes in diffusion-weighted imaging (DTI) by magnetic resonance imaging (MRI).
Feraheme (ferumoxytol) is FDA-approved for iron supplementation and is composed of iron oxide nanoparticles classified among the ultra-small superparamagnetic iron oxides (USPIO). In this project we hypothesize that Feraheme could become a sensitive and specific marker of active inflammation in multiple sclerosis. We will explore this hypothesis taking advantage of ultra high field strength (7T) MRI to further increase the effectiveness of the contrast agent Feraheme at revealing inflammatory activity.
The purpose of this study is evaluate the natural course of disease progression related to gross motor function in children with metachromatic leukodystrophy (MLD).
The main purpose of this study is to evaluate the safety and feasibility of regenerative therapy with mesenchymal stem cells from adipose tissue, administered intravenously in patients with secondary progressive multiple sclerosis who do not respond to treatment.
The investigators principal hypothesis is that INO and optic neuritis are objective, quantitative, and reproducible models for corroborating the hypothesis that changes in core body temperature are associated with the reversible and stereotypic decay in axonal conduction and that ACTHAR can serve to prevent such changes. The application of ocular motor and optic nerve measures appears to constitute a useful paradigm to detect and monitor responses to therapeutic strategies that stabilize nerve cell membranes in response to temperature induced decay in axonal conduction mechanisms, with implications on activities of daily life that are dependent upon vision (reading, driving, walking, work performance).