View clinical trials related to Sclerosis.
Filter by:This study will investigate the efficacy, safety, tolerability and pharmacokinetics (PK) of multiple intravenous infusions of NX210c, at two dose levels, in patients with Amyotrophic lateral sclerosis (ALS).
Amyotrophic lateral sclerosis (ALS), a fatal neurodegenerative disease, affects motor neurons, causing progressive muscle atrophy and weakness. Current treatments are ineffective, with most patients dying within 3-5 years of diagnosis. The disease's exact cause is unclear, but factors such as oxidative stress and protein abnormalities are implicated. Abnormal protein deposits and neurotoxic factors in the brain and spinal cord contribute to ALS pathology. Recent research on the brain's glymphatic-lymphatic system suggests impaired waste clearance may exacerbate ALS. Restoring drainage connections between cervical lymphatic vessels and veins could potentially alleviate neurodegenerative disease progression.
This study is researching an experimental drug called ALN-SOD (called "study drug"). This study is focused on people with amyotrophic lateral sclerosis (ALS) who have a mutation in a gene called the superoxide dismutase-1 (SOD1) gene. This type of ALS is known as "SOD1-ALS". This is the first time that ALN-SOD will be given to people. The aim of the study is to see how safe and tolerable the study drug is. The study is looking at several other research questions, including: - The effect the study drug has on specific biomarkers, which are molecules in the blood or in the fluid that surrounds the brain and spinal cord, known as cerebrospinal fluid (CSF) - How much study drug is in the blood and in the CSF, at different times - Whether the body makes antibodies against the study drug (which could make the drug less effective or could lead to side effects) - What effects the study drug has on ALS symptoms
Study to evaluate the effectiveness of ofatumumab in Italian RRMS patients in the real-life setting.
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.
This clinical trial aims to assess the safety and effectiveness of faecal Microbiota Transplantation (FMT) in improving chronic diarrhea symptoms among patients with systemic sclerosis.
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).
RESET-SSc: A Phase 1/2 Open-Label Study to Evaluate the Safety and Efficacy of CABA-201, a CD19-CAR T cell therapy, in Subjects with Systemic Sclerosis
This is a cross-sectional study to evaluate the variation of biological biomarkers of oxidative stress and inflammation in response to the external exposome, in people with Multiple Sclerosis (pwMS).The objective is to study the variation of biological biomarkers of oxidative stress and inflammation in response to external exposome in pwMS, controlling for other biomarkers (cytokine, neurofilaments, microbiome), gender, age, anthropometric measurements, vitamin D levels and medical history. Specifically, the variation of microRNAs is defined as the primary outcome, in response to urban air pollution, urbanization, lifestyle and quality of life components of the external exposome. Following the functional exposome approach:(1)Information on a pwMS sample about socio-demographic characteristics and medical history will be collected and specific components of the (2) On the same pwMS sample, the internal exposome variation will be measured. MicroRNA levels and gut and nasal microbiota alpha- and beta-diversity and relative bacterial abundances will be considered as biomarkers of oxidative stress and inflammation. At the same time, cytokines and neurofilament proteins (NfL) will be measured as biomarkers of neurodegeneration and axonal damage. Adults (≥ 18 years) pwMS, with relapsing-remitting course, diagnosis of MS according to 2017 McDonald criteria and residing in Pavia or Milan (Italy) will be included. Potentially eligible pwMS will be screened by a neurologist expert in MS who will verify that all the inclusion criteria will be fulfilled. To validate variation among 7 selected MS diagnostic miRNA, in response to urban air pollution, urbanization, lifestyle and quality of life components of the external exposome, the differential expression (ΔCT) for each miRNA will be considered as the outcome measure. Two hundred eligible pwMS who meet the inclusion criteria and sign the informed consent will be included in the study, to consider 15% dropout at the blood sampling stage.