View clinical trials related to Multiple Sclerosis.
Filter by:The two primary study objectives involve examining the effects of treadmill walking exercise training versus stretching-and-toning activities on the primary and secondary outcomes. Specific Aim 1: The first specific aim is to examine the effects of 3-months of treadmill walking exercise training compared with an active control condition on learning and memory outcomes in fully-ambulatory persons with MS who have impairment in learning new information. We hypothesize that those who undergo treadmill walking exercise training will demonstrate improvements in learning and memory relative to those who undergo stretching-and-toning activities. Specific Aim 2: The second specific aim is to examine the effects of 3-months of treadmill walking exercise training compared with an active control condition on hippocampal volume, hippocampal resting-state functional connectivity, and cardiorespiratory fitness in those persons with MS. We hypothesize that those who are randomly assigned to the treadmill walking exercise condition will demonstrate increases in hippocampal volume and resting-state functional connectivity (i.e., adaptive increases) and improved cardiorespiratory fitness relative to those in the stretching-and-toning condition.
The purpose of this study is to evaluate the safety and tolerability of ATA188 as a monotherapy in Parts 1 and 2, to determine the recommended Part 2 dose (RP2D) of ATA188 as monotherapy in Part 1, and to evaluate the effect of ATA188 treatment on clinical disability, as assessed by confirmed Expanded Disability Status Scale (EDSS) improvement at 12 months in Part 2 in participants with progressive forms of multiple sclerosis (MS) (primary progressive multiple sclerosis [PPMS] and secondary progressive multiple sclerosis [SPMS]).
Goal is to evaluate the achievement of biological NEDA as demonstrated by a drop in neurofilament levels in MS patients commencing Alemtuzumab therapy as part of their MS management.
The humanised IgG4 monoclonal antibody GNbAC1 targets the envelope protein (Env) of the human endogenous multiple sclerosis-associated retrovirus (HERV-W MSRV), which may play a critical role in multiple sclerosis. The study assesses the long-term safety of GNbAC1 in patients with RRMS and the long-term efficacy of GNbAC1 in terms of MRI outcomes, relapse rate, disability and disease progression.
The primary objective of Part 1 of this study is to evaluate the effects of BIIB033 versus placebo on disability improvement over 72 weeks. The primary objective of Part 2 of this study is to evaluate the long-term safety profile of BIIB033 as an add-on therapy in participants with MS. The secondary objective of Part 1 is to evaluate the effects of BIIB033 versus placebo on additional measures of disability improvement. The secondary objective of Part 2 is to investigate long-term efficacy (disability improvement) and additional safety measures of BIIB033 as an add-on therapy in participants with MS.
Transcranial Direct Current Stimulation (tDCS) is a noninvasive brain stimulation technique that utilizes low amplitude direct currents applied via scalp electrodes to apply currents to the brain and modulate the level of cortical excitability. tDCS applied over the dorsolateral prefrontal and motor cortex has been reported to be able to decrease pain sensation and to increase pain threshold in healthy subjects and is effective in reducing central chronic pain in patients with multiple sclerosis (PwMS.) In spite of the encouraging results of tDCS in PwMS, detailed mechanisms accounting for its analgesic effect have not yet been elucidated. This will be the first study to determine the effects of tDCS on whole and regional brain activity in PwMS with neuropathic pain to identify potential mechanisms of the analgesic effects of tDCS. These findings will provide targets for future studies investigating different stimulation areas, possible short- and long-term side effects, and specific target areas for other precise stimulation techniques such as transcranial magnetic stimulation.
The proposed randomized, open label, with treat as usual control group (standard treatment or any disease modifying drugs), crossover phase II study will be conducted in 40 patients (n=20 per group) with the relapsing forms of multiple sclerosis according to the McDonald 2010 Criteria. Patients will be randomized into 2 intervention groups. One will receive the FMT from month 1 and for the first 6 months (early intervention group). On the other hand, the other group will be a control group during the first 6 months and will receive the FMT for the last 6 months of the study. Patients will be screened for eligibility based on MS diagnosis and EDSS and if eligible then consented. All qualified patients will not be currently or recently treated with high dose steroids.
The purpose of this study is to determine whether MS patients who receive Oral mitoquinone (MitoQ) have less fatigue than those receiving a placebo. A comparison between patient's fatigue scored at baseline and fatigue scored 12 weeks after study drug initiation will assess if MitoQ has a significant change in fatigue.
This study will enroll about 66 participants who experienced a relapse of RRMS that steroids did not help. The doctor will put participants into a treatment group. Each person has an equal chance of being in either one of two groups (like flipping a coin). One group will receive a shot of study medicine (called Acthar Gel) under their skin every day for 14 days. The other group will receive a shot every day for 14 days, too, but there is no medicine in it (called placebo).
The proposed study will test the feasibility and tolerability of transcranial direct current stimulation (tDCS) added to a cognitive remediation program in n=100 adults. For 60 cognitive remediation sessions, participants will receive 20 minutes of active tDCS stimulation (up to 4.0 mA, dorsolateral prefrontal cortex or montage dependent on specific area of deficit) while they complete the cognitive training tasks.