View clinical trials related to Multiple Sclerosis.
Filter by:The purpose of this study is to evaluate the impact of an early treatment with Natalizumab on the management of the progressive nature of Relapsing Remitting Multiple Sclerosis (RRMS).
An open prospective study with multiple (every 6-12 months) intrathecal or intravenous injections of autologous MSC in patients with progressive forms of MS (secondary progressive, primary progressive or relapsing-progressive), who failed to respond to first and second lines of immunomodulatory treatments and deteriorated (at least 0.5 degree in the EDSS scale) during the year preceding their inclusion to our study or had at least one major relapse without sufficient recovery.
People with multiple sclerosis (MS) need exercise training programs throughout their life in order to prevent secondary complications of the disease. Coronavirus disease of 2019 (COVID-19) forced people with chronic disorders to stay at home in order to prevent the transmission of the virus. Therefore, people with MS now are facing a new challenge in going outside their home to perform their rehabilitation sessions. One of the solutions to keep them exercising is a home-based exercise program and one of the home exercise programs that are well validated in older adults is the Otago exercise program (OEP). Investigators suggest that the balance would improve and fall incidences would reduce using the OEP in people with MS compared to health awareness videos only. 50 participants with confirmed diagnosis of MS will be recruited in both groups. Using a randomized controlled trial this study aims to examine the effectiveness of the OEP compared to a control group that gets health awareness videos only on falls and falls-related factors in people with MS.
3D FLAIR, 3D T1 FAT SAT, coronal T2 and coronal T1 dixon sequences were usually used to assess visual deficits in MRI. Optic nerve examination is preferably performed using a coronal T2 sequence in order to detect a hypersignal suggestive of inflammation whereas brain examination is preferably performed using a 3D T1 sequence to highlight signs of spatial dissemination and lesions suggestive of multiple slerosis (MS). No study has yet investigated the detection capabilities of 3D T1 for the detection of optic nerve inflammation. The objective of this retrospective study was to determine whether a single 3D T1 sequence allows simultaneous exploration of the optic nerve and the brain for the positive diagnosis of optic neuropathy and/or MS.
3D FLAIR, 3D T1 FAT SAT, coronal T2 and coronal T1 dixon sequences were usually used to assess visual deficits in MRI. Optic nerve examination is preferably performed using a coronal T2 sequence in order to detect a hypersignal suggestive of inflammation whereas brain examination is preferably performed using a 3D FLAIR sequence to highlight signs of spatial dissemination and lesions suggestive of multiple slerosis (MS). Recently, a study based on a small number of patients showed the interest of 3D FLAIR in the detection of the hypersignal of the optic nerve.The objective of this retrospective study is to determine whether a single 3D FLAIR sequence allows simultaneous exploration of the optic nerve and the brain for the positive diagnosis of optic neuropathy and/or MS.
The purpose of this study was to understand whether participants could mount an immune response to SARS-CoV-2 modRNA vaccines administered either during continuous siponimod treatment or during a treatment break versus while on treatment with first-line DMTS or no current MS treatment..
The primary purpose of this study is to evaluate the long-term effectiveness of Mavenclad® tablets, in terms of disease activity and safety, in participants with highly-active relapsing multiple sclerosis (RMS) previously participating in the MAGNIFY MS trial MS700568_0022 (NCT03364036).
The purpose of the study was the evaluation of the effect of a treatment for highly-active relapsing multiple sclerosis (RMS). This was the extension study to CLARIFY MS (NCT03369665), to assess cognitive impairment and health related quality of life (HRQoL) in participants with highly active RMS, at 4 years after initial dose of Mavenclad® tablets.
Multiple Sclerosis (MS) characterized by demyelination and axonal degeneration is a chronic inflammatory disease of the central nervous system (CNS). Recent studies have shown that dysregulated miRNAs alter immune responses, so they may have roles basis on various genetic diseases such as MS and may be potential targets for biomarkers and new therapeutic approaches. In this study, we evaluated the dysregulation of miRNA expression levels at MS and MS stages. We also discussed the potential of these miRNAs to be biomarkers and/or therapeutic targets in MS.
The aim of this study is the development of novel telemedical examination methods based on sensor-based gait analysis in patients with multiple sclerosis (MS). In a first step, the basic technical feasibility of measuring gait parameters in MS patients under standardized conditions in the clinic and in the home environment of the study participants will be investigated. In a subsequent two-week study phase, gait parameters (real-life monitoring) and standardized gait tests will be continuously recorded in the home environment of the study participants. The comparability of the collected gait parameters from standardized gait tests and real-life monitoring to clinical scales (e.g. EDSS) will investigate the medical applicability of gait analysis as a target parameter in MS patients. New algorithms for detecting indication-specific gait patterns from gait analysis in patients' daily lives and their possible changes over time (progression) will be explored and implemented into the study system. In addition, a patient app annotates the standardized gait tests and collects questionnaire-based data from the study participants during real-life monitoring. Via a study tablet, the data of the gait analysis and the patient app are transmitted to a study platform (Digital Patient Manager). The clinical assessment data (neurological examination, questionnaires) can be entered via a web front-end of the study platform and assigned to the patient via a pseudonym. A further aim of this study is to validate the technology used for its applicability in the home environment. By means of structured interviews after the study phase, the study participants will be asked about compliance and adherence. The following scientific questions will be investigated in this project: (a) Is gait analysis a feasible and meaningful target parameter for MS centers? b) Are gait parameters from real-life monitoring suitable biomarkers for the detection of MS symptoms? c) Can gait parameters from standardized gait tests be compared with different testing environments (clinic / home environment)? d) How do gait parameters from standardized gait tests differ from gait data from real-life monitoring? e) How is the telemedical application for the collection of gait parameters evaluated by the patients? f) Can disease progression be detected using sensor-based gait parameters from the home environment?