View clinical trials related to Multiple Sclerosis.
Filter by:As the in vivo reservoir of the Epstein-Barr virus, B cells play an important role in the perpetuation of MS disease activity. B cell depletion therapy with medications like ocrelizumab or rituximab have proved very successful in preventing clinical relapses and MRI activity in MS, but incomplete in terms of neuroprotection and symptomatic outcomes. Ocrelizumab and rituximab only target naïve and memory B cells expressing the CD20 marker but do not deplete the wide spectrum of B cell lineages including plasmablasts and plasma cells, which are also key reservoirs for EBV. This is particularly relevant to the mechanism of action of TAF, since EBV lytic reactivation occurs in coordination with B-cell differentiation. In vivo, the initiation of plasma cell differentiation provides the physiological trigger for EBV lytic reactivation, and EBV utilizes the plasma cell differentiation program to replicate. As these cells are ineffectively depleted by anti-CD20 treatment, the use of TAF would be highly complementary as an add-on treatment to anti-CD20 therapy. Anti-EBV therapy with TAF in combination with ocrelizumab or rituximab will therefore provide a synergistic approach to cover the whole EBV reservoir. The primary aims of the proposed trial are to determine if TAF, at the standard dose of 25 mg/day administered for 12 months: i) is safe and well-tolerated by individuals with RRMS over a period of treatment of 12 months; ii) leads to an overall improvement in fatigue, as assessed by the Modified Fatigue Impact Scale by 12 months; and iii) causes a reduction in serum concentrations of neurofilament light chain (NfL), a marker of neuronal damage in MS.
Primary Objective: To determine the efficacy of SAR441344 as measured by reduction of the number of new active brain lesions Secondary Objective: - To evaluate efficacy of SAR441344 on disease activity as assessed by other MRI measures - To evaluate the safety and tolerability of SAR441344 - To evaluate pharmacokinetics of SAR441344
This study evaluated if relapsing multiple sclerosis (MS) participants treated with ofatumumab 20 mg subcutaneous (s.c.) administered once monthly could develop an adequate immune response to the COVID-19 mRNA vaccine compared to participants on an interferon or glatiramer acetate.
This is a multicenter, randomized, double-blind, placebo-controlled, Phase 4 study in which eligible patients with RADIOLOGICALLY ISOLATED SYNDROME (RIS) (as defined by meeting 2017 McDonald criteria for DIS) will be randomized 1:1 to receive ocrelizumab treatment or placebo (standard of care).
Music therapy is widely used in relational and rehabilitation settings. In addition to Neurologic Music Therapy and other music-based techniques, "sonification" approaches were recently introduced in the field of rehabilitation. The "sonification" can be defined as a properly selected set of sonorous-music stimuli are associated with patient movements mapping. In fact, the auditory-motor feedback can replace damaged proprioceptive circuits with a consequent improvement of the rehabilitation process. Interventions with "sonification" facilitate sensorimotor learning, proprioception and movements planning and execution improving global motor parameters. This study proposes the use of musical auditory cues which includes the melodic-harmonic component of the music. This kind of sonification makes the feedback pleasant and predictable as well as potentially effective. The investigators propose to apply and assess the effectiveness of this kind of sonification on gait training and other secondary outcomes in stroke, Parkinson's disease and multiple sclerosis population. Also, the investigators will assess the impact of "sonification" on the level of fatigue perceived during the rehabilitation process and on the quality of life. The study is a multicenter randomized controlled trial and will involve 120 patients that will undergo standard motor rehabilitation or the same rehabilitation but with the sonification support. The interventions will be evaluated at the baseline, after 10 sessions, after 20 sessions and at follow-up (one month after the end of the treatment). The assessment will include functional, motor, fatigue and quality of life evaluations. The collected data will be statistically processed.
Several studies have reported high rates of depression in people with MS. Depressive symptoms represent a serious threat to quality of life and well-being. Furthermore, findings from the literature suggest that mechanisms underneath depressive features and loss of physical functions in MS could be related. The current study aims at investigating the feasibility of a fairly new type of psychotherapy known as "eye movement desensitization and reprocessing" (EMDR) on depression in people with MS. The goal of this intervention is to reduce the long-lasting effects of distressing memories by developing more adaptive coping mechanisms, through bilateral sensory stimulation. Together with the study on clinical measures, brain mechanisms of change will be assessed with MRI. Fifteen depressed or mildly depressed people with MS will be recruited. Participants will be assessed for depression, and quality of life, before and after the intervention. Participants will also undergo an MRI for brain structural and functional assessments before and after the EMDR intervention. The main aim of the study is to verify that EMDR is a feasible psychotherapeutic approach for people with depression and MS and to collect preliminary data on the efficacy of this type of intervention in reducing the depressive symptoms and improving the quality of life. The study, however, will not be limited to the analysis of outcome differences. The use of MRI assessments, in fact, will allow to explore possible brain change modifications related to depression reduction and/or symptoms modifications.
This is a 24-month, prospective, exploratory, observational study to investigate immune phenotypes in patients with MS following treatment with ocrelizumab.
Balance impairment is one of the most common disorders due to a neurological diseases. Sensor-based technologies may be useful for falls prevention and balance recovery during patients hospitalization. OAK Elderly Care System (Khymeia Group, Noventa Padovana, Italy) allows the assessment of fall risk, the centre of pressure and the execution of balance exercises in a virtual environment.
MS is a heterogeneous disease either in its response to treatment or clinical manifestation. Indeed, the natural history of MS is varying from a benign condition to a devastating and rapidly incapacitating disease. Clinical heterogeneity could also be cellular and / or molecular. The aim is to identify from OMIC analyses, at the early stage of the disease, differentially expressed molecules and / or cell subpopulations derived from CD8 + T lymphocytes and / or CD4 + T lymphocytes and / or B lymphocytes and monocytes from patients with aggressive versus non-aggressive, compared to a cohort of healthy controls
This study aims to understand whether patients with MS can mount an immune response to SARS-CoV-2 mRNA vaccines (initial vaccinations or booster vaccines) when vaccinated either before initiation of ofatumumab treatment or at least 4 weeks after commencing ofatumumab treatment.