View clinical trials related to Sclerosis.
Filter by:Inflammatory synaptopathy is a prominent pathogenic mechanism in multiple sclerosis (MS) and in its mouse model, which can cause excitotoxic damage by long-lasting excessive synaptic excitation and, consequentially, drives disease progression by leading to motor and cognitive deficits. As synaptopathy occurs early during the disease course and is potentially reversible, it represents an appealing therapeutic target in MS. Although reliable biomarkers of MS synaptopathy are still missing, recent researches highlighted miR-142-3p as a possible candidate. Indeed, miR-142-3p has been described to promote the IL-1beta-dependent synaptopathy by downregulating GLAST/EAAT1, a crucial glial transporter involved in glutamate homeostasis. Furthermore, mir-142-3p has been suggested as a putative negative MS prognostic factor and a target of current MS disease modifying therapies. The hypothesis of this study is that miR-142-3p represents a good biomarker for excitotoxic synaptopathy to predict MS course, and, possibly, treatment efficacy at individual level, including both pharmacological strategies and non-pharmacological interventions, like therapeutic transcranial magnetic stimulation (TMS) to ameliorate MS spasticity. To this aim, the role of miR-142-3p in MS synaptopathy, its potential impact on the efficacy of disease-modifying treatments currently used in MS therapy as well as the influence of genetic variants (SNPs) of miR-142-3p and GLAST/EAAT1 coding genes on the responsiveness to therapeutic TMS, will be further investigated in the study. By validating miR-142-3p as potential biomarker of synaptopathy, it is expect to improve MS prognosis and personalized therapies. Patients with MS, who will undergo neurological assessment, conventional brain MRI scan, and CSF and blood withdrawal for diagnostic and clinical reasons at the Neurology Unit of IRCCS INM-Neuromed will be enrolled in the study. Neurophysiological, biochemical and genetic parameters together with lower limb spasticity will be evaluated. Subjects, who will undergo blood sampling and/or lumbar puncture for clinical suspicions, later on not confirmed, will be recruited as control group. A subgroup of MS patients showing lower limb spasticity will be included in a two-week repetitive TMS stimulation protocol (iTBS) to correlate the patient responsiveness to this non-pharmacological treatment with MS-significant SNPs of both miR-142-3p and GLAST/EAAT1 coding genes.
Even at the disease onset, about 70% of patients with multiple sclerosis (MS) suffer from cognitive impairment that impacts quality of life. Currently, some speed processing tests are used, such as SDMT ( symbol digit modalities test ), CSCT (information treatment speed evaluation) and WAIS-IV (Weschler Adult Intelligence Scale ). Their inconvenient are the improvement of scores in test-retest, and some difficulties doing the tests due to motor or visual impairment that might be reported. The XO test is fast, cheap and easy to use during medical consult by neurologists. It seems to be correlated to results of speed processing tests, and probably to some executive functions tests too. Asthenia, anxiety, depression and pain are likely to have a negative influence on tests results. Screening every patients with a short test aims to detect patients with cognitive impairment earlier. After a positive screening test, and to better characterize cognitive impairment, they will undergo a neuropsychological test battery. Depending on the alteration, adapted workstation, financial support, technical and human helps will be implemented in order to improve the daily-living of patients. This study aims to approve the XO as a screening test of cognitive impairment in MS patients. We will study the relationship between XO test, and SDMT, CSCT, WAIS-IV, and also with questionnaires about pain, asthenia (FSS, Fatigue Severity Scale), anxiety and depression (HAD, Hospital Anxiety and Depression ). The XO test will be standardized using a healthy population.
REPAIR-MS is a single-center open label, sequential group, investigator and patient blinded study to assess the CNS metabolic effects, safety, pharmacokinetics, and pharmacodynamics of CNM-Au8 in patients who have been diagnosed with Multiple Sclerosis (MS) within fifteen (15) years of Screening. The primary endpoint for this study changes from baseline to week 12 in CNS metabolic changes, based on 31P-MRSimaging.
The purpose of this research study is to investigate the effectiveness of a memory enhancement technique in persons with Multiple Sclerosis.
The investigators hypothesize that serum neurofilament-light chain (NfL) levels can provide information about the level of activity and progression of Multiple Sclerosis at different stages and landmarks of the disease. In addition, Glial Fibrillary Acidic Protein (GFAP) has also been identified as another serum biomarker of disability in MS.
The main gold of this study is to lead a multicentric, prospective study, to evaluate the diagnostic quality of tears in children with clinically isolated syndrome (CIS) and radiologically isolated syndrome (RIS) during a longitudinal follow-up.
The use of simulators to retrain driving skills of patients with stroke, Parkinson's disease (PD), or multiple sclerosis (MS) is very limited because of cost, space required, and incidence of simulator sickness in high fidelity simulators. The Principal investigator recently developed a low cost low fidelity portable driving simulator (PDS). In this pilot study, the study team will (1) determine the ease of use and occurrence of simulator sickness while operating the low fidelity PDS in a clinic setting and (2) the efficacy of the low fidelity PDS to reproduce the benefits from retraining impaired driving skills of stroke survivors in a high-fidelity simulator. Participants: 30 participants, separated according to neurological condition including stroke, PD, or MS, will be randomly allocated to either the PDS or fixed-base high-fidelity simulator training. Each participant will undergo a pre-training evaluation, five hours of designated training and a post-training assessment, similar to the pre-training evaluation. Data will be analyzed according to study aims. The investigators hypothesize that the simple set up of the PDS will make it easier to use and better decrease the incidence of simulator sickness that typically leads to stopping therapy than the high-fidelity simulator. The investigators hypothesize that improvements in lane maintenance, adherence to speed limits, reaction to traffic lights, and overall reaction time after training using the PDS will not be significantly different from improvements observed after training using the high-fidelity driving simulator.
This study will evaluate the safety, tolerability, and descriptive efficacy of BIIB017 in pediatric participants with relapsing-remitting multiple sclerosis (RRMS) and to assess the pharmacokinetics (PK) of BIIB017 in pediatric participants with RRMS in Part 1. In Part 2, the study will evaluate the long-term safety of BIIB017 and further describe safety and the long-term multiple sclerosis (MS) outcomes after BIIB017 treatment in participants who completed the study treatment at Week 96 in Part 1 of the study.
Mobility impairment is one of the most common, poorly managed, and life altering consequences of MS. Current therapies for managing MS do not prevent the long-term accumulation of mobility impairment, highlighting the need for alternative strategies that prevent or slow progressive mobility disability. The proposed trial will test the efficacy and lasting effects of functional electrical stimulation (FES) cycling as an exercise-based rehabilitation strategy for managing mobility impairment and associated consequences in MS.
This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.