View clinical trials related to Autoimmune Diseases.
Filter by:The study team plans to establish a bioregistry of patients receiving biologic therapy as part of their standard treatment at the Mount Sinai Therapeutic Infusion Center and affiliated practices. The study team will to apply state-of-the-art approaches to assessing and predicting immunological and clinical responses associated with these standards and prescribed treatments. The approach is twofold. The first component is to establish a robust and flexible biorepository and database that includes demographic, immunologic, exposure and clinical records, and can facilitate research across disciplines, and across other registries affiliated with Mount Sinai. The second component is to address specific key research questions focused on using novel diagnostics to increase the effectiveness of biologic treatment. Most patients will be recruited from the Mount Sinai Therapeutic Infusion Center (TIC), although others receiving infusions elsewhere or at home will be recruited from outpatient Sinai affiliated clinical practices.
The objective of this study is to evaluate the effect of vitamin D supplementation on thyroid autoimmunity, thyroid function, and other metabolic and clinical variables associated with the thyroid axis in patients with Hashimoto's thyroiditis and vitamin D deficiency.
Investigator initiated, randomised, placebo-controlled, double-blind, multi-centre primary intervention study to assess whether daily administration of B. infantis EVC001 from age 7 days to 6 weeks (+14 days) until age 12 months (+ 14 days) to children with elevated genetic risk for type 1 diabetes reduces the cumulative incidence of beta-cell autoantibodies in childhood.
The study seeks to investigate whether 24 weeks of power training has neuroprotective effects in older PwMS. Additional purposes are to examine the effects of 24 weeks power training on physical function, cognitive function and neuromuscular function. Further, it is investigated whether the potential effects of power training are maintained after 24 weeks of follow-up.
This study learn how easily patients can use an educational tool that will be created for patients with melanoma and pre-existing autoimmune diseases who receive or will receive immune checkpoint inhibitor drugs. Patients will be asked their opinions about the design, accessibility, and content of the tool. Researchers will use the information collected to improve the educational materials that will help patients make future decisions about their treatment.
Background: Viral infections such as COVID-19 may lead to flare-ups in people with systemic autoimmune diseases (SAD). These infections may also change the function of their immune system and/or cause problems with their blood vessels. Researchers want to learn how people with SAD respond to treatments or vaccines for COVID-19. Objective: To understand how COVID-19 affects inflammation, the immune system, and blood vessels in adults and children with autoimmune diseases. Eligibility: People ages 15 and older who have been diagnosed with an autoimmune disease or are a healthy volunteer Design: Participants will have a screening visit. This will include: Medical history and physical exam EKG Chest x-ray COVID-19 test. A swab will be put in the participant s nose or the back of their mouth. Blood and urine tests Participants will be placed into 1 of 4 groups: 1. Those with previously documented COVID-19 infection or COVID vaccination 2. Those with a recently known COVID-19 exposure or vaccination 3. Those with no known COVID-19 exposure or vaccination 4. Those who developed an acute COVID-19 infection Depending on their group, participants will have 1 to 5 more visits. These will occur over 12 to 18 months. Visits may include: FDG PET/CT scan. Participants will lie in a doughnut-shaped machine. The machine creates pictures of the body. For the scan, they will have a radioactive substance injected into their arm through an IV. Kidney function tests Non-invasive vascular studies test. These tests are similar to what it feels like to have blood pressure checked.
This multi-arm, multi-site study investigates the safety, tolerability, and efficacy of stem cell therapy for the treatment of various acute and chronic conditions. Clinically observed initial findings and an extensive body of research indicate regenerative treatments are both safe and effective for the treatment of multiple conditions.
To date, there is no available tool that allows, at individual level, determination of the probability to develop clinically relevant complications of prolonged glucocorticoid therapy. In patients with inflammatory rheumatic disorders requiring prolonged glucocorticoid therapy, such tool could be useful to adapt first-line treatment decisions (in daily practice and in future clinical trials). The main objective of the study is to identify routine clinical, biological and DXA baseline characteristics predictive of the occurrence of clinically relevant complications of glucocorticoid therapy at 1 year, in order to propose a predictive score.
Immunotherapy, especially immune checkpoint inhibitors (ICIs), are effective in treating many different types of cancers. ICIs fight cancer by driving the immune system into an "activated state" that makes it harder for tumor cells to hide and easier for the immune system to destroy them. In doing this, oncologists risk "over activation" where immune cells can cause side effects that could affect any part of the body. These are known as immune related adverse events (irAEs). While irAEs are a known risk of ICIs, scientists and doctors do not understand how they develop, who is more likely to get them, and what is the best way to manage them while still getting the anti-tumor effects from ICIs. The aim of this project is to build an infrastructure for researchers to collaborate in clinical, translational, and basic science research focused on understanding and managing immune related adverse events (irAEs). The investigators will collect research data and samples from patients who receive ICI treatment, including when patients might experience immunotherapy side effects, to store for use in future research studies.
Antibody-mediated inflammatory diseases of the nervous system (also known as autoimmune diseases of the nervous system) are autoimmune diseases in which autoimmune cells and immune molecules attack the nervous system as the main pathogenic mechanism. In the immune response, pathogenic antibodies acting on autoantigens of the nervous system are collectively referred to as autoantibodies of the nervous system, and antibody-mediated inflammatory diseases of the nervous system can occur in the central nervous system, peripheral nervous system, and neuromuscular junctions, and muscles. In this study, we will recruit eight kinds of autoimmune diseases of nervous system including Neuromyelitis Optica Spectrum Disorder (NMOSD), Myasthenia Gravis (MG), Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP), idiopathic inflammatory myopathyand (IIM), multiple sclerosis (MS), autoimmune encephalitis (AE), Myelin Oligodendrocyte Glycoprotein Antibody-Associated Disease (MOGAD) and POEMS Syndrome. B-cell maturation antigen (BCMA) is expressed on the surface of plasma cells, thus making it an ideal target for targeted therapies. Chimeric antigen receptor (CAR) T cells against BCMA offers another potential therapeutic option to eliminate plasma cells in patients with neurological autoimmune diseases driven by abnormal antibody who still suffer recurrent attacks from conventional treatments. In the current study, the safety and efficacy of a novel CAR-T cell therapy using CT103A cells, are evaluated in patients with relapsed/refractory antibody-mediated idiopathic inflammatory diseases.