View clinical trials related to Multiple Sclerosis.
Filter by:The aim of this study is to explore the anti-inflammatory and neuroprotective effects of a novel nutraceutical product (commercial name Forza™️), consisting of the plant osmotin protein, in patients with progressive multiple sclerosis (PMS). The potential effect on brain metabolism and microstructure will be evaluated by magnetic resonance imaging (MRI) performed six months before starting treatment, at baseline, and after one and six months of treatment. At the same timepoints, electrophysiology, neurofilaments (NfL) quantification, optical coherence tomography (OCT) and clinical assessments will be performed.
Neurodegenerative diseases are a major health concern due to their growing societal implications and economic costs. The identification of early markers of pathogenic mechanisms is one of the current main challenges. The gut-brain axis has become a primary target because of its transversal role across the neurodegenerative spectrum and its effect on cognition. However, despite recent progress, how changes in the gut-microbiota composition can affect the human brain is still unclear. The goal of this observational study is to characterise the gut-microbiota composition associated with alterations in brain structure and function during the ageing process and across neurodegenerative disorders. This is based on recent studies showing that changes in the human brain and in the microbiota composition, can indicate very sensitively and in a predictive way pathological development and, consequently, be used as markers of neurodegenerative diseases. The main questions it aims to answer are: - How variation in the gut-microbiota composition correlates with the normal brain ageing trajectory? - How dysregulation in the gut-microbiota correlates with pathological changes in brain regions in specific neurodegenerative disorders? - Can the impact of the gut-microbiota on the brain be modulated by blood biomarkers? The investigators will recruit 40 young healthy participants, 40 old healthy participants, 40 participants with prodromal Alzheimer's Disease, 40 participants with Parkinson's Disease and 40 participants with Multiple Sclerosis. Participants will undergo the following examinations: - Magnetic Resonance Imaging - Analysis of a stool sample - Analysis of a blood sample - Neuropsychological assessment - Questionnaires on eating habits
The overall objective of the proposed randomized controlled (RCT) is to determine the feasibility and efficacy of a 16-week theory-based, remotely-delivered, combined exercise (aerobic and resistance) training intervention for improving cognitive and physical function in older adults (50+ years) with multiple sclerosis (MS) who have mild-to-moderate cognitive and walking impairment. Participants (N=50) will be randomly assigned into exercise training (combined aerobic and resistance exercise) condition or active control (flexibility and stretching) condition. The 16-week intervention will be delivered and monitored remotely within a participant's home/community and supported by Zoom-based chats guided by social cognitive theory (SCT) via a behavioral coach. Participants will receive training materials (e.g., prescriptive manual and exercise equipment), one-on-one coaching, action-planning via calendars, self-monitoring via logs, and SCT-based newsletters. It is hypothesized that the home-based exercise intervention will yield beneficial effects on cognition, mobility, physical activity, and vascular function compared with an active control condition (flexibility and stretching intervention), and these improvements will be sustained during a 16-week follow-up period.
Multiple Sclerosis (MS) is one of the most common causes of neurological disability in young adults. At least 62% of people with MS have speech, vocal, or communication disorders. Among these, alterations in voice intensity and quality constitute a limitation in MS people's social life leading to experience difficulties in work, conversations, and communication especially in noisy environments or through the telephone. Though voice and speech impairments and speech impairments are widely prevalent in this population, only 2% of the people receive speech therapy. The Lee Silverman Voice Treatment (LSVT)-Loud is a well-documented, efficacious intensive speech intervention, for treating hypophonia in subjects with neurological conditions. Despite the effectiveness of LSVT-Loud treatment on the voice has been reported in MS, several factors prevent the agile use of this method in rehabilitation centers: motor disability, work commitments, and distance barriers may preclude repeated attendance of this intervention at a healthcare facility. Telerehabilitation represents a feasible solution to bypass these potential barriers related to attendance at the rehabilitation programs in the clinic. The increasing evidence sustains the role of telerehabilitation for the migration of care from the clinic to the patient's homes, overcoming several obstacles affecting service accessibility. Previous studies showed the validity and the non-inferiority of LSVT-Loud delivered via telerehabilitation in subjects with Parkinson's Disease, while no pieces of evidence are still available on the efficacy of voice treatment delivered by telerehabilitation in MS. It is plausible to assume that LSVT-Loud delivered by telerehabilitation would be feasible and provide a beneficial effect also for MS non-inferior compared to the same treatment delivered in the clinic.
The goal of this randomized, double-blind, placebo-controlled multicenter study is to investigate whether the combination of food supplementation with Tonalin® and specific probiotics is a safe and effective add-on to first-line disease modifying treatment (DMT, interferon-beta derivatives as well as glatirameracetate and other glatirameroids) in relapsing remitting MS (RRMS). 100 patients will be randomly assigned in a 1:1 ratio to receive either both food supplements for 48 weeks or to receive placebo in addition to their established first-line disease modifying treatment (DMT). The two randomized groups will be compared concerning the change in volume of T2-weighted hyperintense lesions from baseline to 48 weeks.
This study will be underpinned by the new MRC guidelines for developing a complex intervention with a participatory design methodology that uses evidence-based research and behaviour change models alongside COSMIN methodology for validating a measure. Research question: To what extent does gaitQ's smart cueing system improve people with long-term conditions including people with Parkinson's (PwP's) gait? Is it effective in the everyday environment? What factors are associated with good mobility? What is the impact of cueing on healthy people? Aims and objectives: To finalise the product development and evaluation comprising (1) algorithm refinement and (2) monitoring system development. To evaluate the reliability, concurrent validity, and potential for efficacy, as determined by responsiveness in response to the gaitQ product using gait data collected in laboratory environments. To prepare for market entry and NHS adoption: early economic modelling, pricing, marketing strategies, and early adopter partnerships. Design: Participatory design with testing for validity, reliability and responsiveness Participants: This will involve healthy people and people with long-term conditions affecting their movement, including people with Parkinson's [PwP]. Additional patient groups will be investigated, including stroke, and people with hip/knee injuries. Methods The Researchers will collect movement data using the gaitQ system, which monitors and cues, to both collect data and cue in the lab environment and investigate the reliability of the measure, concurrent validity of the metric to gold standard gait capture, the responsiveness of measures to the cueing system and usability for participants and clinical teams. To determine reliability, 60 participants will be invited to repeat testing on a second visit. Researchers will describe participants' conditions using standard questionnaires and their mobility and functioning. This study will be underpinned by the new MRC guidelines for developing a complex intervention with a participatory design methodology that uses evidence-based research and behaviour change models to identify intrinsic and extrinsic factors that contribute to a given outcome in a specific population.
The goal of this clinical trial is to demonstrate the improvement of muscular oxygenation in patients with Multiple Sclerosis and spasticity using Exopulse Molli suit stimulation. The main questions it aims to answer are: - to evaluate the short-term impact of EXOPULSE Molli suit on muscular oxygenation in adult MS patients suffering from spasticity. - to assess the effects of Exopulse Mollii suit on spasticity, pain, fatigue, quality of life (QoL), walking and risk of fall. Study subjects will participate in: - One baseline visit for inclusion in the study during which the patient will undergo the first session (active or sham) along with an evaluation before and after the session - One visit after two weeks during which the patient will undergo the second session (active or sham) along with an evaluation before and after the session - One visit two weeks after the second stimulation; where the patients will undergo a fifth evaluation and receive the EXOPULSE Molli Suit for the four-week open label phase to use the suit at home for an active stimulation session every other day for four weeks. - One visit at the end of the open label phase to perform the sixth and last evaluation and return the EXOPULSE Molli suit. Researchers will compare both Active and Sham groups to demonstrate the improvement of muscular oxygenation in patients with MS and spasticity using Exopulse Molli.
This is a double-blind, randomized, active-controlled, parallel group, Phase 1/3 study to compare efficacy, PK, PD and overall safety of CT-P53 with Ocrevus in patients with Relapsing-remitting Multiple Sclerosis.
This clinical trial aims to demonstrate that metformin can prevent clinical disability in patients with progressive MS by stopping or slowing down neurodegeneration by enhancing endogenous remyelination. Patients will continue their DMT treatment: metformin or placebo will be used as add-on study treatment.
The available therapeutic strategies for Multiple Sclerosis (MS)-related symptoms are usually faced with limited efficacy and numerous side effects. Patients with MS frequently suffer from fatigue, affective symptoms, and cognitive deficits.