View clinical trials related to Multiple Sclerosis.
Filter by:Multiple sclerosis (MS) is a neurodegenerative disease characterized by demyelination of the central nervous system. Young women between the ages of 20 and 40 are primarily targeted by this disabling disorder. Till now there are no sufficient mechanisms to explain the pathophysiology of multiple sclerosis.
This study aims to investigate the effects of regular remote monitoring of physical activity levels of individuals with multiple sclerosis on physical activity levels, psychological health, fatigue and quality of life.
The overarching goal of this research protocol is to acquire eye-tracking, cognitive, and disease-severity metrics in MS patients to train machine learning algorithms that will support the development and performance assessment of a sensitive and non-invasive eye-tracking software application. The training of our machine learning classifying algorithms to identify which eye-tracking metrics-or combination thereof-can serve as reliable markers of MS disease severity and cognitive status.
This prospective cohort study is designed to characterize the utility of sNfL as a biomarker in clinical practice. This study also aims to understand how access to sNfL measures affects patient and clinician knowledge of their disease status and capture how this may have the potential to influence clinical decision-making. Level of disability, cognitive changes, fatigue, depression, and quality of life to detect clinical and subclinical worsening will be measured. While there is strong evidence in support of sNfL as a potential biomarker, literature regarding the application of sNfL in a real-world clinical practice setting is lacking. Understanding the utility of this test to clinicians and patients as a biomarker of MS disease activity is essential. Additionally, the optimum sampling frequency in clinical practice should be investigated to further elucidate its practicality. Given recent advances in the treatment of MS, there is increasing need for convenient and accessible measures of treatment efficacy.
VESPA 2.0 is based on an integrative and ecological approach used for the treatment of cognitive dysfunction in patients with MCI or other neurodegenerative disorders.
The RECLAIM study aims to gather a centralized and harmonized dataset, enabling the secondary use of data for building AI-based models that will support diagnosis and prognosis of individual Multiple Sclerosis patient's disease course and treatment response in a real-world setting. Additionally, the data will be used to generate further insights on Multiple Sclerosis progression as well as to develop the tools to monitor this progression.
The Service Hospitalier Frédéric-Joliot (SHFJ) and Paris Brain Institute (ICM) groups have identified [18F]-DPA-714 as a promising second-generation TSPO tracer, a macromolecule overexpressed in neuroinflammatory conditions, for PET imaging. They have also developed a non-invasive quantification methodology, enabling the generation of individual neuroinflammation maps in MS patients. Recent findings from [18F]-DPA-714 PET imaging in MS patients revealed that most of the white matter lesions contained a smoldering component, even when considered inactive on MRI, and that their neuroinflammatory profiles were associated with longitudinal disability worsening. The Inflanet project aims to leverage a unique consortium comprising French radiochemists, radiopharmacists, nuclear medicine/neuroimaging experts, and MS neurologists to establish the first national network dedicated to [18F]-DPA-714 PET imaging in MS, so far limited to monocentric studies. The objectives of the INFLANET project are (1) to conduct the first multicenter study assessing neuroinflammation in patients with active MS using [18F]DPA-714 PET tracer, and (2) to establish a methodology suitable for the quantification of multicenter PET data obtained with [18F]DPA-714. The INFLANET initiative aims to disseminate TSPO PET within the French MS research community, thereby opening the unique perspective of future large-scale, multicenter studies. These endeavors are expected to enhance our capacity to predict diseases, stratify patients, and assess new therapeutic interventions.
The goal of this interventional study is to test the effect of the anti-inflammatory and neuroprotective effects of this supplementary training program that includes breathing exercises, cold exposure, and meditation in patients diagnosed with multiple sclerosis. Researchers will compare the effect to control groups of MS patients without intervention.
This work is aimed to assess the short term effect of pulse therapy on clinical and neurophysiological course before and after pulse therapy in order to understand the possible mechanism of action of steroid therapy on RRMS patients low-dose oral treatment should also be retained for patients in whom this approach seems appropriate
This study aims to understand the mechanisms of a novel intervention involving breathing short durations of low levels of oxygen for persons with multiple sclerosis (MS). This intervention with low levels of oxygen is called Acute Intermittent Hypoxia (AIH), the levels of oxygen experienced are similar to breathing the air on a tall mountain, for less than 1 minute at a time. Previous studies have shown that AIH is a safe and effective way to increase strength in persons with MS. Here the investigators aim to look at brain activation and ankle strength before and after AIH to gain a better understanding of how the AIH may improve strength in those persons with MS.