View clinical trials related to Multiple Sclerosis.
Filter by:To assess the safety and of a single dose of IV infusion of placenta derived Mesenchymal Stem Cells (PLMSCs) in patients with secondary progressive Multiple Sclerosis (SPMS) disease. Monitoring will be encompassed baseline assessments and follow-ups over subsequent months, evaluating clinical signs, Expanded Disability Status Scale (EDSS), cytokines, diffusion tensor imaging (DTI), functional MRI (fMRI), cognitive & psychological evaluations, and flow cytometry for B cell markers.
The overall objective of the current study is to determine the efficacy of a 16-week remotely delivered lifestyle behavioral intervention compared with a control condition (i.e., waitlist control) in persons newly diagnosed with MS (disease duration ≤ 2 years). Specific Aim 1: To evaluate the changes in self-report and device-measured physical activity after the 16-week remotely delivered physical activity behavior change intervention compared with a control condition (i.e., waitlist control) in persons who have diagnosed with MS within the past two years. The investigators hypothesize that the 16-week behavior change intervention will yield greater improvements in physical activity levels than the control condition immediately after the intervention. Specific Aim 2: To investigate the efficacy of the 16-week, remotely delivered physical activity behavior change intervention compared with the control condition for improvements in fatigue, depression, anxiety, and QoL in persons newly diagnosed with MS. The investigators hypothesize that there will be beneficial effects on the symptoms and QoL outcomes immediately after the physical activity intervention compared with minimal changes in the control condition.
The study aims to assess the validity of real-world activity monitoring by the Syde® wearable device in subjects with multiple slclerosis. The Syde® collected data will be compared to on-site conventional clinical endpoints for MS pathology (EDSS, FSS and T25FWT). Subjects with multiple sclerosis will be assessed every 6 months for 2 years.
Study to evaluate the effectiveness of ofatumumab in Italian RRMS patients in the real-life setting.
Rare and very rare neurological diseases primarily or exclusively affect the nervous system with a prevalence of < 5 out of 10'000 and 100'000 people, respectively. Besides these, there are undiagnosed neurological diseases: neurological conditions without a diagnosis after completing a full diagnostic examination. Rare, very rare, and undiagnosed neurological diseases are complicated and progressive and often cause variegated motor signs, impairments, and syndromes. Balance and gait are frequently affected in these conditions, already at the clinical examination. These balance and gait impairments limit activities and cause an increased risk of falling. Falls can eventually result in injuries, even severe. There are only a few studies about these diseases, likely because of their rarity. Hence, the clinical presentation and the course of rare and very rare diseases are poorly known or even unknown. Essential information for these conditions' diagnosis, prognosis, treatment and rehabilitation is missing. MaNeNeND is an observational study underway at the Fondazione IRCCS Istituto Neurologico "Carlo Besta" (Milano) aimed at detailing the clinical and biological features of very rare and undiagnosed neurological diseases. Research questions: 1. Do patients with rare (Ra), very rare (V) and undiagnosed (U) neurological diseases suffer a balance and gait impairment? 2. Is there a correlation between the clinical and instrumental severity of the balance and gait impairment in RaVU neurological diseases? 3. Are instrumental measures more sensitive in detecting balance and gait impairments in patients affected by a RaVU neurological disease than the clinical measures? 4. Do the balance and gait impairments in RaVU neurological diseases worsen in time? The current project aims at diagnosing, quantifying and detailing the balance and gait impairment in rare, very rare and undiagnosed neurological diseases. To this aim, questionnaires, clinical scales and instrumental tests will be administered to these patients to collect a wide range of balance and gait measures. These measures will also integrate those collected with MaNeNeND to provide a more detailed description of patients with rare, very rare and diagnosed neurological diseases. Participants will complete two questionnaires: the Dizziness Handicap Inventory - short form (DHI-sf, an ordinal score of self-perceived balance) and the Modified Fatigue Impact Scale (MFIS, an ordinal score of self-perceived fatigue). Moreover, a clinician will administer the Mini Balance Evaluation Systems Test (Mini-BESTest, an ordinal score of balance), the 10 m walking test (for measuring the gait speed and other gait parameters) and the Timed Up and Go test (an instrumental measure of mobility and balance). Walking and the Timed Up and Go tests will be recorded with a trunk-worn inertial measurement unit. Finally, participants will be asked to complete an instrumental upright stance and gait assessment, the first consisting of standing on posturographic plates and the second of walking on a treadmill equipped with force sensors. When walking on the treadmill, an optoelectronic system will also record the position in time of limbs and trunk. The quantification of the severity of the balance and gait impairment of the patients suffering a rare, very rare or undiagnosed neurological disease will highlight these persons' therapeutic and rehabilitative needs. Comparing the balance and gait impairment of rare, very rare and undiagnosed diseases with those of multiple sclerosis, Parkinson's disease and peripheral neuropathy will highlight if the formers' balance and gait impairment has unique characteristics that could help ease the diagnosis of these uncommon conditions. The longitudinal measurements on rare, very rare and undiagnosed diseases will be paramount to identifying prognostic factors. In addition, the data collected in the current study will be crucial for future studies, for example, for estimating the sample size in clinical trials.
This project involves two sub-parts: Study 1: Effect of lab-based Functional Balance Intervention (FBI) for physical and cognitive symptoms of Multiple Sclerosis. Study 2: Feasibility of home-based FBI for physical and cognitive symptoms of Multiple Sclerosis. Each study involves a 2-arm, Phase-1, randomized controlled clinical trial to evaluate the effect of FBI on physical, cognitive function, and daily living among people with MS (PwMS). Study 1 is conducted in a lab setting, while Study 2 is conducted at home with additional safety measures. A total of 150 people with multiple sclerosis will be recruited and telephone screened, with an expected enrollment of 120 (60 per phase). After in-person screening, 96 eligible participants (48 per phase) will undergo pre-training assessment and randomization into FBI or Stretching groups. Training sessions will occur twice a week for four months. Anticipating a 15-17% attrition rate, the target sample size is 80 (40 per phase) for completion of the study. Post-training assessments will be conducted after four months to evaluate FBI's impact on physical and cognitive functions. This evidence-based protocol, previously successful with neurological and older adult populations, intends to provide a low-cost, safe, and effective intervention for PwMS in clinical and community settings, including rural areas.
The goal of this clinical trial is to develop and investigate a compassion-based intervention (Mindful Self-Compassion course) in people with multiple sclerosis. The main objectives are: 1. Explore feasibility of trial processes including recruitment, adherence, retention, and follow-up 2. Explore experiences of people with multiple sclerosis with the Compassion-based intervention, including perceived effects, barriers and facilitators to participation, suggestions for improvement 3. Determine potential effects on stress, anxiety, depression, emotion regulation, illness adjustment, and self-compassion. Participants will be asked to take part in an 8-week online Mindful Self-Compassion course and report changes in levels of stress, anxiety, depression, self-compassion, adjustment, emotion, and quality of life from pre- to post-intervention and at 3-month follow-up. Additionally, participants will be asked to take part in a semi-structured interview to explore their experiences with the course, perceived effects, and suggestions for improvement.
The primary objective of this study is to investigate the cognitive benefits of ozanimod in individuals with Multiple Sclerosis (MS). The study aims to understand the neural basis of cognitive improvement in Relapsing-Remitting MS patients under ozanimod treatment using neuroimaging and behavioral techniques to characterize the brain and behavioral changes due to ozanimod treatment.
Impairments in aspects of social cognition are disorder-transcending: these have been demonstrated in various neurological disorders, such as traumatic brain injury (TBI), stroke, brain tumours (both low grade glioma's and meningioma's) and multiple sclerosis (MS). Social cognition involves processing of social information, in particular the abilities to perceive social signals, understand others and respond appropriately (Adolphs 2001). Crucial aspects of social cognition are the recognition of facial expressions of emotions, perspective taking (also referred to as mentalizing or Theory of Mind), and empathy. Impairments in social cognition can have a large negative impact on self-care, communication, social and professional functioning, and thus on quality of life of patients. Recently, a first multi-faceted treatment for social cognitive impairments in TBI was developed and evaluated; T-ScEmo (Training Social Cognition and Emotion). T-ScEmo turned out to be effective in reducing social cognitive symptoms and improving daily life social functioning in this particular group, with effects lasting over time (Westerhof-Evers et al, 2017, 2019). Unfortunately, up till now there are no evidence based, transdiagnostic treatment possibilities available for these impeding social cognition impairments in neurological patient groups, other than TBI. Therefore the aim of the present study is to investigate whether T-ScEmo is effective for social cognition disorders in patients with different neurological impairments, such as stroke (including subarachnoidal haemorrhage (SAH)), brain tumours, MS, infection (meningitis, encephalitis) and other. The secondary objective is to determine which patient related factors are of influence on treatment effectiveness. In short, hopefully this study can contribute to a treatment possibility for social cognition disorders for all patients with various neurological disorders. It is expected that T-ScEmo will be effective for various neurological disorders, based on previous research of Westerhof-Evers et al. (2017, 2019). Since social cognition disorders within patients with traumatic brain injury do all have the same ethiology it is expected that the treatment will show the same effects for patients with various neurological disorders. Therefore it is expected that patients will improve on social cognition, social participation and quality of life and social behaviour, that these results will last over time.
Multiple sclerosis (MS) is the most frequently acquired demyelinating disease and the first cause of non-traumatic chronic disability in young adults. Major progress has been achieved in the treatment of MS through the development of therapies targeting the adaptative immune system, which drastically reduce the relapse rate, with various efficiency and safety profiles (Ontaneda, 2015). However, these drugs generally fail to prevent disability worsening along the disease course, and we are now assisting to a shift in therapeutic objectives from the development of new immune drugs towards the identification of therapeutic strategies that could prevent neurodegeneration by promoting myelin regeneration (Stangel, 2017; Stankoff, 2016), in order to prevent neurological disability in MS (Irvine and Blakemore, 2008; Patrikios, 2006; Duncan I, 2017, Bodini, 2016). Among the first candidate compounds developed to promote remyelination was the anti Lingo1 antibody, which enhance remyelination (Mi, 2009). Medium and large throughput screening of drug libraries subsequently identified several chemical classes of compounds with strong promyelinating properties, such as the antifongic drug miconazole (Najm, 2015) or the muscarinic antagonist clemastine (Wei, 2014). A recent innovative trial has investigated the effect of clemastine, compared to placebo, in a small sample of subjects (25 patients per group) and showed that clemastine could significantly improve the optic nerve conduction speed which reflecting myelin integrity and functionality (Green, 2017). Our preclinical research has allowed us to identify ifenprodil as a powerful drug to promote myelin repair in vitro and in vivo across species. In parallel our team recently pioneered and optimized a PET imaging approach for quantifying remyelination in the whole brain, that allowed to enhance the sensitivity to detect the myelin repair process, and showed that patients are characterized by heterogeneous profiles of spontaneous remyelination profiles that are closely linked to disability accrual (Bodini, 2016).