View clinical trials related to Clinically Isolated Syndrome.
Filter by:This is a longitudinal single blind randomized trial to test the effects of high compared to low dose vitamin D3 supplementation on cognitive performance at 6 and 12 months, and MRI measures of 12 months duration. A cognitive assessment battery will be administered at baseline, 6 and 12 months. Related clinical data and information on depression and anxiety, lifestyle, and food sources of vitamin D and sun exposure among other variables will also be collected.
The central hypothesis of this protocol is that it is possible, using First Degree Relatives (FDRs) of patients with Multiple Sclerosis (MS) and assessing a variety of both known and unknown risk factors for MS, to define a risk algorithm for earliest signs of development of MS. The plan will be to do an abbreviated brain Magnetic Resonance Imaging (MRI) scan in asymptomatic, young FDRs, analyze blood for a variety of immunological, genetic, neuroaxonal damage, metabolic, viral serology and other markers, and have FDRs fill out a detailed bioscreen questionnaire about lifestyle factors and perform a cognitive screening test. The investigators will then compare the results of the various blood/other studies in FDRs with and without an MRI showing signs signs concerning for MS, as well as age-and sex-matched NON-FDRs who will have blood drawn and fill out the questionnaire. With this preliminary cross-sectional study, the investigators hope to begin to identify a risk stratification model for those at highest risk of developing MS, ie FDRs, with a long-term goal of developing a longitudinal study to increase sensitivity and specificity of the risk model.
The purpose of this study is to develop tools to detect, measure, monitor and predict axonal damage in the course of CIS and during Multiple sclerosis (MS), in order to be able to consider as early as possible an adaptation of the background treatment in patients with MS. patients with radiological criteria of poor long-term clinical course.
Disruption of the blood brain barrier (BBB) is associated with inflammatory conditions of the central nervous system (CNS). This clinical trial aims to investigate whether following a gluten-free diet (GFD) for six months can contribute to normalizing BBB permeability in patients with newly diagnosed clinically isolated syndrome (CIS) and multiple sclerosis (MS). Furthermore, the study seeks to identify possible effects of a GFD on markers of systemic as well as CNS inflammation. Lastly, gut permeability is measured in order to examine whether there are any correlations between the permeability of the gut and the BBB as well as the inflammatory state in the intestine and CNS. From a patient's view, potential positive effects of a GFD will be manifested through an alleviation of symptoms, improved quality of life and reduced risk of CIS progressing to MS. Evaluating a possible role of gluten in MS pathogenesis can contribute to directing future research and optimizing treatment protocols.
Using an automatic software tool, Pixyl.Neuro, to conduct a retrospective analysis (detection of lesions + segmentation of images + tracking over time) of cerebral MRI images acquired during a prospective study of patients presenting with clinically isolated syndrome, and comparing the results against manual analysis.
The purpose of this study is to assess the relationship of blood glucose levels in persons with Multiple Sclerosis (MS) who have experienced a relapse and will be receiving intravenous steroids for the relapse, to their recovery from the relapse. Steroid exposure commonly leads to elevated serum blood glucose, however, standardized monitoring of blood glucose levels in the outpatient setting is not common. The clinical impact of any associated elevated blood glucose during steroid administration is unknown. We hypothesize that the blood glucose response to steroid treatment is clinically relevant to the MS-relapse recovery.
This observational study investigates the efficacy and safety of immunoadsorption versus plasmapheresis in 60 patients with relapse in Multiple Sclerosis and Clinically isolated syndrome who do not fully recover after a high doses of intravenous corticosteroids.
While the last several years have seen great strides in the treatment of relapsing forms of MS, progressive MS, responsible for the majority of MS-related disability, lags far behind. Despite much research, the lack of understanding related to what causes patients' relentless decline in function results in an inability to develop targeted treatment strategies suitable for clinical trials. This grant has two main goals. The first goal is to extend the investigators preliminary study on rat neurons treated with the CSF of MS patients to a larger number of Progressive patients in order to validate the initial findings and extend the study to include analysis of human neurons. The initiating PI (Dr. Casaccia) and the Partnering PI and Clinical Neurologist (Dr. Katz Sand) have recently identified components that are present in the CSF of progressive patients that impair the ability of rat neurons to produce energy. The partnering PI, Dr. Quinzii (Columbia University) together with collaborator Dr. Fossati (NY Stem Cells Foundation), have characterized human neurons generated from stem cells derived from skin biopsies of progressive patients and detected the presence of energetic deficits. The experimental plan will build on these results and test hypotheses of disease progression. The overall goal is to improve understanding on how to stop neurons from degenerating and stop clinical progression. The second goal is to ask whether it is possible to define a progressive disease course on the basis of combined biochemical, functional and imaging measurements. The initiating PI will be responsible for the biochemical assessment of CSF and serum samples and, together with partnering PI Quinzii, will also provide functional bioassays measurements of mitochondrial bioenergetics impairment in patients. These data will be combined with clinical assessment and MRI evaluations conducted by the partnering PI Katz Sand and collaborator Inglese. A two year clinical and imaging follow up from the initial recruitment will allow to define whether the combined measurements can be used by clinical neurologists to define the disease course and better identify therapeutic options for patients. The expectation is that the completion of the stated aims of research will allow an advancement of the current knowledge of the progressive form of MS and lead to potential new therapeutic targets.
This is a Phase 4, interventional, multicenter study of subcutaneous Rebif® (interferon beta-1a) using RebiSmartâ„¢ device to assess effectiveness and adherence of treatment in subjects with clinically isolated syndrome (CIS) or relapsing multiple sclerosis (RMS).
This is a multicentric and prospective study for the validation of a diagnostic method in multiple sclerosis. Our hypothesis is that there is a characteristic profile of tears that can be recognized in order to help in the diagnosis of this pathology and that could possibly replace the lumbar punction which is an invasive method. Semi-automatic and automatic techniques of isoelectric focusing will be developed for analyzing data from tears. These results will help in the identification of markers of this disease.