View clinical trials related to Multiple Sclerosis.
Filter by:The present study aims to evaluate the effectiveness of two different exergaming systems in addition to conventional treatment on physical functional capacity, balance, muscle strength, spasticity in lower limbs and quality of life compared to an isolated conventional intervention in patients with multiple sclerosis. The secondary aim will be to compare the differences between both exergaming groups.
The underlying disease mechanisms which occur in patients with immune mediation neurological diseases, such as Multiple Sclerosis (MS), are incompletely understood. For such patients, autologous haematopoietic stem cell transplantation (aHSCT) has been increasingly used as a highly successful one-off treatment for some patients. This treatment aims to delete the faulty immune system with a course of chemotherapy and then 'reboot' the immune system using a patients' own stem cells (a cell with the unique ability of being a building block to create many different cells in the body) to stop further damage. Over the last 20 years more than 1800 patients with MS have been treated in Europe with high levels of success. It may be more successful than disease modifying treatment but unfortunately, a small portion of people do not respond to this treatment optimally and continue to accumulate disability. There is a risk of side effects, restricted largely to the time of treatment, which necessitates the need to ensure appropriate patients are treated. Whilst aHSCT is a very effective therapy, it is still in its early phase of development, is not in widespread use, and there is incomplete knowledge regarding how it works and importantly, why it does not work in some patients, and how to monitor response to treatment. Unfortunately, there is no way of detecting which patients will, and will not, benefit from the different treatments available or a way of monitoring the immune system to ensure further treatment is provided before irreversible damage occurs. This study will investigate the immune system which is found in the fluid surrounding the brain and spinal cord, blood and stool of patients undergoing aHSCT and compare it to those receiving disease modifying treatment. This study will therefore further the understanding of biomarkers of aHSCT to develop an awareness of how it can be refined, may improve monitoring of patients following treatment and permit the development of markers which can predict potential treatment success or failure before patients are exposed to the risks.
This study will be conducted to investigate the following: 1. The impact of implementing GVS in MS rehabilitation on cortical excitability. 2. The influence of GVS on upper limb function in patients diagnosed with MS. Patients will be randomly assigned to a control group (Conventional Physical Therapy program = CPT) and a study group (Galvanic Vestibular Stimulation = GVS in addition to the conventional program) subsequently. CPT will perform moderate intensity aerobic training (arm ergometer) and task oriented hand manipulation training, while GVS will receive Galvanic Vestibular Stimulation will be added to the conventional physical Therapy program.
To compare the effects of cycling exercise with different types of virtual reality on processing/thinking speed in persons with multiple sclerosis (MS).
This is a single-site, single-arm, single-dose, Phase 1 study of the safety of bryostatin in participants with multiple sclerosis (MS) receiving any disease modifying therapy (DMT).
The purpose of the study is to assess the effect of acupuncture treatment combinated with conventional rehabilitation methods on gait, fatigue, quality of life and bladder functions in patients with multiple sclerosis
Fatigue is a prevalent and disabling symptom in Multiple Sclerosis (MS), affecting up to 90% of patients. Current treatments, including off-label prescriptions of wake-promoting agents, have shown limited effectiveness. Previous research indicates that these agents may be beneficial specifically for MS patients with concomitant excessive daytime sleepiness. This study uses a randomized, double-blind, placebo-controlled crossover design. Participants will undergo a 10-day lead-in with he medication/placebo, followed by two four-week treatment periods separated by a one-week washout. Outcomes will be measured primarily using the Modified Fatigue Impact Scale (MFIS), with additional exploratory measures collected via a smartphone app that assesses fatigue through keystroke dynamics. This novel approach to fatigue measurement aims to capture real-time variations and provide more granular data than traditional self-report questionnaires.
The study will analyze the auditory functions of patients with Multiple Sclerosis using auditory tests like pure tone auditory test, speech perception test, Auditory Brain Response (ABR) and Distortion Product Otoacustic Emission (DPOAE). CSF will be collected by lumbar puncture and analyzed looking for inflammatory markers. The results of DPOAE and CSF will be correlated to identify statistically significant correlation.
The goal of this prospective, multi-center, non-blinded, non-randomized, non-intervention clinical trial is to compare immunologic, virologic and epigenetic factors in patients with active multiple sclerosis in standard 2.line treatment with ocrelizumab, rituximab, ofatumumab or natalizumab in Region Midt, Denmark. It aims to answer how the immunologic, virologic and epigenetic response in these patients are compared to healthy controls, and analyze their treatment effect in relation to this response. Participants will get an extra blood sample, when they have their routine blood samples taken.
The purpose of this study is to examine the effects of a postural adjustment, targeted training program on balance ability and postural responses anticipatory postural adjustments (APA) and compensatory postural adjustments (CPA) in individuals with MS