View clinical trials related to Sclerosis.
Filter by:The purpose of this study is to investigate the potential effects of cladribine on the pharmacokinetics of monophasic oral contraceptive microgynon® by assessment of its constituents, ethinyl estradiol (EE) and levonorgestrel (LNG).
Multicenter, randomized, double-blind, placebo controlled study to assess the tolerabilty and efficacy of CuATSM in patients with ALS/MND. Patients will be randomized 1:1 to CuATSM or placebo for 6 x 28-day cycles (24 weeks) of treatment.
Multiple Sclerosis (MS) is an autoimmune disease of the central nervous system (CNS) affecting roughly 900,000 people in the United States that frequently results in impaired mobility. The majority of people with MS express that impaired mobility the most difficult aspect of living with the disease. Ataxia is one aspect of impaired mobility experienced by approximately 80% of persons with MS. Despite $9 billion in drug costs to patients with MS in the U.S., in 2012 alone, standard pharmacological treatment for MS is ineffective in restoring mobility and decreasing ataxia. The PI designed a targeted ballet program requiring motor learning of complex movements that mitigated ataxia and improved balance in patients with MS in a pilot study. The improvements obtained were approximately five times larger than those reported by other physical rehabilitation interventions. However, understanding these changes requires determining whether there are underlying changes in the brain after participation in the targeted ballet program. This project involves persons with mild-to-moderate MS that present ataxia in their movement. We will compare the brain connectivity of participants in the targeted ballet program before and after the 16-week, twice per week, hourly participation intervention. Brain images will be obtained with magnetic resonance imaging while each participant rests with the eyes open. As a secondary outcome, measures of movement quality, ataxia, and balance will be taken to better understand the effects of the targeted ballet program on motor function, wellness, and the brains of persons with mild to moderate MS. Test on movement will include a 10 meter walk with motion tracking, a balance test using a force plate, and clinical tests of ataxia, balance, and walking speed. We will also assess changes in wellness with standard questionnaires.
It is an open label study to evaluate safety, tolerability and brain microglia response in participants with ALS following multiple doses of BLZ945.
A Phase 2b/3 multicenter, randomized, double-blind, placebo-controlled, parallel group study to evaluate the efficacy, safety and tolerability of MN-166 given to ALS participants for 12 months followed by a 6-month open-label extension phase.
The aim of this research is to understand how lipids such as cholesterol affect the disease process in people with MS.
This is an open-label study of patients with relapsing forms of MS is designed to assess the biochemical, immunological, and kinetic profiles of natalizumab being used with specific brief dosing interruption. The study will be conducted at one site in the US. Ten subjects currently treated with natalizumab will be enrolled and will be evaluated for both PK/PD and cell trafficking in blood and/or CSF during standard dosing of natalizumab and at the end of a planned 12-week dosing interruption. MS disease activity will be carefully monitored clinically and by MRI and NfL.
This is a multi-center prospective rater-masked (blinded) randomized controlled trial of 156 participants, comparing the treatment strategy of Autologous Hematopoietic Stem Cell Transplantation (AHSCT) to the treatment strategy of Best Available Therapy (BAT) for treatment-resistant relapsing multiple sclerosis (MS). Participants will be randomized at a 1 to 1 (1:1) ratio. All participants will be followed for 72 months after randomization (Day 0, Visit 0).
There is a strong relationship between metabolic state and immune tolerance through a direct control exerted on immune cells by specific intracellular nutrient-energy sensors. An increased "metabolic work load" represents a novel issue linking metabolism with loss of self-immune tolerance. Several disease-modifying drugs have been approved for Relapsing-remitting Multiple Sclerosis (RR-MS) treatments and have shown to reduce relapse rates by modulating immune responses; however, their impact on long-term disease progression and accrual of irreversible neurological disability remains largely unclear, underlining the need for novel therapeutic strategies. In this context, both acute fasting (AF) and chronic caloric restriction (CR) have been shown to improve experimental autoimmune encephalomyelitis (EAE). Despite this evidence, no specific studies have been performed to dissect at the cellular level the mechanism of action of CR in the context of autoimmunity and MS. This study aims at investigating this specific point in order to pave the way for a wider utilization of a nutritional approach to alter MS progression and activity. The aim of this study is to improve the outcome of RR-MS and the efficacy of first line drug treatments (ie. Copaxone or Tecfidera) by altering the metabolic state of the host via calorie restriction with the aim to re-equilibrate immune/inflammatory responses of patients.
In light of experimental models showing that neuronal electrical activity is crucial for the remyelination process, we hypothesize that maintenance of electrical axonal activity in the early stages of optic neuritis may promote myelin repair, limiting thereby axonal degeneration. In humans, electrical stimulation of the optic nerve has been tested mainly in ischemic neuropathy and retinitis pigmentosa, which are both associated with severe axonal/retinal pathology and poor visual prognosis. In contrast, the inflammation of the optic nerve in optic neuritis is generally transient, with less severe axonal damage at the acute phase, which would allow for better efficacy of electrical stimulation as a strategy to promote remyelination and neuroprotection.In light of experimental models showing that neuronal electrical activity is crucial for the remyelination process, we hypothesize that maintenance of electrical axonal activity in the early stages of optic neuritis may promote myelin repair, limiting thereby axonal degeneration. In humans, electrical stimulation of the optic nerve has been tested mainly in ischemic neuropathy and retinitis pigmentosa, which are both associated with severe axonal/retinal pathology and poor visual prognosis. In contrast, the inflammation of the optic nerve in optic neuritis is generally transient, with less severe axonal damage at the acute phase, which would allow for better efficacy of electrical stimulation as a strategy to promote remyelination and neuroprotection.