View clinical trials related to Autoimmune Diseases.
Filter by:The purpose of the OTIS Autoimmune Diseases in Pregnancy Study is to monitor planned and unplanned pregnancies exposed to certain medications, to evaluate the possible teratogenic effect of these medications and to follow live born infants for one year after birth. With respect to fetal outcome, it is important to evaluate the spectrum of outcomes that may be relevant to a medication exposure during pregnancy, and these include both easily recognizable defects which are visible at birth, as well as more subtle or delayed defects that may not be readily identifiable without special expertise and observation beyond the newborn period.
The aim of this pilot study is to investigate the application of proteasome inhibitor Bortezomib (Velcade®, approved for therapy of multiple myeloma) in patients with therapy-refractory antibody-mediated autoimmune diseases. The investigators hypothesis is that the proteasome inhibition will lead to reduced antibody titers and improved clinical outcome.
Autoimmune diseases are diseases in which inappropriate immune responses that have the capability of harming host cells play an important role. Evidence suggests that the presence of certain autoimmune diseases such as rheumatoid arthritis or systematic lupus erythematosus increase the risk of cardiovascular disease (CVD). However, this evidence is inconsistent for autoimmune disorders and no systematic approach has been previously used to study the relationship between a range of common autoimmune disorders and specific forms of cardiovascular diseases such as myocardial infarction, intracerebral and subarachnoid haemorrhage, or venous thrombosis. The investigators will use linked electronic health records to investigate whether commonly diagnosed autoimmune disorders are associated with increased risk of CVD development and whether effects differ in men and women and change with age.
The purpose of this study is to evaluate the impact of rapid infusion rituximab on the incidence of infusion-related reactions in patients with Autoimmune Diseases.
The purpose of this study is to retrieve and cryopreserve ovarian tissue from females undergoing a treatment that may lead to irreversible loss of ovarian function.
The immune system is an intricate system comprised of specialized cells, proteins, tissues and organs. Proper functioning is critical to the body's ability to defend itself against harmful pathogens. Immunological disorders and deficiencies are defects in the immune system that lead to abnormal immune responses. Abnormal immune responses could be derived from immune deficiencies, dysregulations or hypersensitivities. The overall goal of this research study is to identify the mechanisms of primary immune deficiencies and immune disorders at the genetic, cellular and molecular level, using novel analytic techniques to be performed on immune cells derived from blood samples. The knowledge gained from the aims of this study could lead to better diagnostics and identify novel targets for therapeutic interventions.
This is an observational cohort study to assess the risk of autoimmune disease(s) within 12 months of receiving the first dose of Cervarix® in the exposed cohort and over a comparable period in the unexposed cohorts. This is an alternative study by GSK using the CPRD database in the UK to fulfil the US FDA safety commitment. The UK has had sufficient Cervarix® vaccination coverage during the period mid-September 2008 to 2011 to allow suitable data to be collected.
To evaluate for any adverse effects that may be related to the administration and reception of autologous adipose derived stromal vascular fraction (SVF). Secondarily, the study monitors the results of subjective and objective findings as it applies to the non-blinded deployment of autologous SVF for various inflammatory and/or degenerative conditions including select orthopedic, neurologic, urologic and cardio-pulmonary conditions. SVF deployments include intra-venous, intra-articular, and soft tissue injections.
The study aims to establish whether defects in immune cell function are shared across multiple autoimmune diseases and whether those problems match to similar genes in the cells.
Working hypothesis and aims: Biotin is conjugated covalently to several proteins and use as a co-factor. Conjugation of biotin to non-targeted, unspecific proteins (e.g. immunoglobulins) leads to the breakage of the immune tolerance and to the formation of anti-biotin antibodies. Anti-biotin antibodies will be found in correlation with the progression and the present of autoimmune disease. In this research the correlation between immune response against biotin and the formations of autoimmune disease, will be studied: A. Assessment of the possibility that biotin elicit immune response involved in the developmental stage of the autoimmune disease. B. Assessment of the possibility that anti-biotin antibodies indicate the developmental stage of the autoimmune disease and therefore can serve as an disease early stage marker. Methods: A. Patient recruitment. Gathering participant's medical record and blood samples. B. Records of clinical and biochemical measures. C. Serum of all patient will be tested for the correlation between biotin level, biotin bound to antibodies and anti-biotin antibodies to liver functions tests. D. Controlled test for repeatedly injected mice with biotinilated self-antibodies. Level of anti-biotin will be tested and their influence on the mouse. E. Determination of the correlation between biotinilated antibodies or anti-biotin antibodies to disease eruption or severance and autoimmune disease. Expected results :Serum biotin-protein levels and Anti biotin antibodies levels are increased in patients with active autoimmune liver diseases. Importance: The proof of connection between biotin-carrying immunoglobulins, anti biotin antibodies and autoimmune diseases will open new research direction of possible factors that cause to autoimmune disease. Probable implications to Medicine: Identification of correlations between reaction to biotine and autoimmune diseases will enable their usage as biomarkers for autoimmune diseases, severity of the disease and personalization of treatment.