View clinical trials related to Multiple Sclerosis (MS).
Filter by:This study aims to advance the scientific understanding and potential future implementation of physical activity promotion by testing the efficacy of a phone-based app for increasing activity in insufficiently active patients with multiple sclerosis (MS).
SEPROS is a non-interventional study, based on primary data collection of MS adult patients who initiated ofatumumab as per neurologist practice and regardless of the study protocol.
Multiple sclerosis (MS) is a chronic disease of the central nervous system characterised by multi-focal inflammatory and demyelinating lesions disseminated in the brain and in the spinal cord. Impressive advancements in the treatment of the autoimmune component of the disease have been achieved during the last decades, leading to a drastic reduction of white matter lesion accumulation and relapse rate along the disease course. However, the development of treatments effective for preventing or delaying the neurodegenerative component of the disease, that underly disability accrual and progression of the disease, remains a major challenge. The development of novel therapeutic strategies for neuroprotection that target all patients with MS is a priority objective for research in the next years. The critical steps towards identifying treatments that prevent neuro-axonal damage include a deep understanding of the mechanisms underlying neurodegeneration and the development of reliable biomarkers for assessing the efficacy of emerging drugs and for accelerating their translation to clinical use. The team of Prof. Stankoff has pioneered an innovative imaging approach combining positron emission tomography and MRI, and succeeded in generating individual maps or key biological processes such as endogenous remyelination, neuroinflammation, or early damage preceding lesion formation. Using these approaches, it has been shown that these mechanisms were influencing disability worsening over the disease course, but the investigators still lack long term longitudinal studies for the validation of these advanced imaging metrics as prognosis markers. Recently, preliminary results have also suggested that a multimodal combination of advanced MRI sequences may have the potential to reproduce some PET results. In this project the investigators propose to unravel the predictive value of individual maps of tremyelination, neuroinflammation, and early tissue damage, on long term disability worsening and to develop a novel imaging approach that aims to capture remyelination of lesions, ongoing inflammation invisible on T1 and T2 MRI sequences (subacute/chronic active lesions) and to predict short-term future disease activity (identify prelesional areas), from a single multimodal MRI acquisition in patients with MS.
This is a Phase 1/2 study to evaluate the safety and tolerability of 18F-OP-801 in subjects with ALS, AD, MS, PD and age-matched HVs. 18F-OP-801 is intended as a biomarker for PET imaging of activated microglia and macrophages in regions of neuroinflammation.
The clinical trial is intended to assess for clinical evidence of Clemastine Fumarate as a myelin repair therapy in patients with chronic inflammatory injury-causing demyelination as measured by multi-parametric MRI assessments. No reparative therapies exist for the treatment of multiple sclerosis. Clemastine fumarate was identified along with a series of other antimuscarinic medications as a potential remyelinating agent using the micropillar screen (BIMA) developed at the University of California, San Francisco (UCSF). Following in vivo validation, an FDA IND exemption was granted to investigate clemastine for the treatment of multiple sclerosis in the context of chronic optic neuropathy. That pilot study was recently completed and is the first randomized control trial documenting efficacy for a putative remyelinating agent for the treatment of MS. The preselected primary efficacy endpoint (visual evoked potential) was met and a strong trend to benefit was seen for the principal secondary endpoint assessing function (low contrast visual acuity). That trial number was 13-11577. This study seeks to follow up on that study and examine clemastine fumarate's protective and reparative effects in the context of chronic demyelinating brain lesions as imaged by multi-parametric MRI assessments. The investigators will be assessing the effects of clemastine fumarate as a remyelinating therapy and assessing its effect on MRI metrics of chronic lesions found in patients with a confirmed diagnosis of relapsing-remitting multiple sclerosis. In addition to using conventional multi-parametric MRI assessments, this study will also evaluate a new MRI technique called Ultrashort Echo Time (UTE) MRI to assess the effects of clemastine fumarate as a remyelinating therapy of chronic lesions found in patients with a confirmed diagnosis of relapsing-remitting multiple sclerosis and compare it to the other assessments.
This project is to: 1. Quantify differences in axonal integrity and organization in aMS versus naPMS patients. 2. Quantify changes in axonal integrity and organization in aMS versus naPMS patients over a two-year period. 3. Validate the combination of imaging parameters that best differentiate aMS versus naPMS patients using histopathology.
Multiple sclerosis (MS) is a common inflammatory demyelinating disorder of the central nervous system frequently affecting females in their reproductive phase of life. In this prospective observational study, we obtain data on the outcome of pregnancies in MS patients and the influence of pregnancy on clinical, laboratory and MRI parameters in MS.
Efficacy and safety of ofatumumab and siponimod compared to fingolimod in pediatric patients with multiple sclerosis
This Next Generation learning health system for Multiple Sclerosis (Next-Gen MS) study is a sub-study of the MS-LINKā¢ Outcomes Study (NCT04735406). The study aims to examine the effects of using feed forward Patient Reported Outcomes (PROs) data in real-world Multiple Sclerosis (MS) care settings. The study will be conducted within an emerging Learning Healthcare System (LHS).
This study is to evaluate the sensitivity and intra-/inter-observer agreement of the averaged magnetization inversion recovery acquisitions (AMIRA) in spinal cord (SC) Multiple sclerosis (MS) lesion detection and to evaluate the additional clinical value of this sequence in clinical settings.