View clinical trials related to Connective Tissue Diseases.
Filter by:Data and specimens will be collected longitudinally from patients seen in the UVA Interstitial Lung Disease (ILD) clinic in order to describe the phenotypic expression of various interstitial lung diseases. Samples will also be collected from a control group for comparison purposes. All data will be entered into a repository for future research purposes or screening for new studies that become available. This data will help identify trends and hopefully lead to a better understanding of the disease progression, treatment options, and outcomes.
30 months, multicentre, prospective observational study on adult (>18 years) patients with a diagnosis of rare and complex connective tissue diseases (rCTDs) who will be given the vaccine during the period from January 2021 and January 2022. Patients with the following diagnosis will be included: - antiphospholipid syndrome (APS), - Ehlers-Danlos syndrome (EDS), - idiopathic inflammatory myopathies (IIM), - IgG4-related disease (IgG4), - mixed connective tissue disease (MCTD), - relapsing polychondritis (RP), - Sjogren's syndrome (SS), - systemic lupus erythematosus (SLE), - systemic sclerosis (SSc) - undifferentiated connective tissue disease (UCTD)
Background: Elastic fibers affect parts of the body that stretch repetitively, such as the skin, blood vessels, and lungs. Researchers want to use medical and research tests in patients with already identified changes in a set of connective tissue genes to better understand diseases related to elastic fibers. Objective: To learn more about the impact of underlying changes in a set of connective tissue genes on people s overall health. Eligibility: People ages 2-100 who have had a gene test that identified a change in a gene that affects elastic fibers. Initial emphasis will be placed on people with changes in ELN, LOX, MFAP4, FBLN5 and EFEMP2. Design: Participants will visit the NIH for several days to perform tests that will help researchers learn more about how changes in connective tissue genes affect a person s health. They will also have clinicians take their medical history and physical exam. Optional tests include giving blood samples, hair strand, urine, and/or saliva samples. They may have a cheek swab or skin biopsy. Their genes may be studied. Their cells may be grown in a laboratory. Participants may have photographs taken of the face and body. They will receive exams by a medical team with experience in connective tissue disease. They may have a dental exam or eye exams and with photography. During the eye exam, pictures may be taken of the blood vessels in the eyes. If this occurs, they will get dye through an intravenous (IV) line in an arm vein. They will also have medical tests to check the health of tissues that may be affected by these connective tissue genes. Participants may have lung function tests. They may have a six-minute walk test. They may complete a treadmill or bike stress test. Their heart s electrical activity may be recorded. Participants may have X-rays and ultrasounds. They may have a DEXA scan to measure bone density. They may have CT, MRI or other imaging scans. Some of these tests require the participant to get a contrast fluid via IV. Participants may have a skin elasticity test using a suction cup that pulls lightly on their skin. Participants may wear blood pressure cuffs while probes are placed on their skin. The tests will be chosen for each individual based on their specific gene change and no person is expected to complete all tests. Participation will last 3-5 days.
Connective tissue diseases represent a rather heterogeneous spectrum of overlapping pathologies, which have as a common feature the involvement of multiple organ systems. Though generally uncommon, they represent lifelong conditions, which are often coupled with various immunologic disorders, thus significantly affecting the overall health and quality of life of the affected individual. The classic connective tissue disorders include rheumatoid arthritis ,Juvenile idiopathic arthritis, systemic lupus erythematosus , scleroderma, Sjogren's syndrome, and the mixed connective tissue disease several studies have reported that up to fifty percent of connective tissue diseases' patients are having laryngeal involvement as the sole manifestation of this disease In acute phases, patients may complain of burning, foreign body sensation in the throat, and difficulty in swallowing. In chronic cases the cricoarytenoid joint is usually affected with resultant fixation. The laryngoscopic findings include mucosal edema, myositis of the intrinsic laryngeal muscles, hyperemia, inflammation and swelling of the arytenoids, interarytenoid mucosa, aryepiglottic folds and epiglottis, and impaired mobility or fixation of the cricoarytenoid joint. In the early stage of the disease, the laryngeal examination may be normal
The purpose of this study is to determine whether a scleral buckling surgical procedure performed on fellow eyes of patients with genetically confirmed Stickler syndrome can prevent the occurrence retinal detachment and/or severe vision loss of the study eye.
1. Impact of telemonitoring on quality of life (QoL) of patients with CTD-ILD 2. Evaluation of health status of patients with connective tissue disease-associated interstitial lung disease (CTD-ILD) using telemonitoring and standard care. 3. Assessment of treatment response patterns (full remission, partial remission, progression, no response) and evaluation of clinical prognostic factors (risk factors for poor response in patients with CTD-ILD. 4. Evaluation of cost-effectiveness of telemonitoring solutions in patients with CTD-ILD. 5. Evaluation of telemedicine as a tool for assessing the safety of therapy
To facilitate clinical, basic science, and translational research projects involving the study of rheumatic diseases.
In parallel with the growth of American Thrombosis and Hemostasis Network's (ATHN) clinical studies, the number of new therapies for all congenital and acquired hematologic conditions, not just those for bleeding and clotting disorders, is increasing significantly. Some of the recently FDA-approved therapies for congenital and acquired hematologic conditions have yet to demonstrate long-term safety and effectiveness beyond the pivotal trials that led to their approval. In addition, results from well-controlled, pivotal studies often cannot be replicated once a therapy has been approved for general use.(1,2,3,4) In 2019 alone, the United States Food and Drug Administration (FDA) has issued approvals for twenty-four new therapies for congenital and acquired hematologic conditions.(5) In addition, almost 10,000 new studies for hematologic diseases are currently registered on www.clinicaltrials.gov.(6) With this increase in potential new therapies on the horizon, it is imperative that clinicians and clinical researchers in the field of non-neoplastic hematology have a uniform, secure, unbiased, and enduring method to collect long-term safety and efficacy data. ATHN Transcends is a cohort study to determine the safety, effectiveness, and practice of therapies used in the treatment of participants with congenital or acquired non-neoplastic blood disorders and connective tissue disorders with bleeding tendency. The study consists of 7 cohorts with additional study "arms" and "modules" branching off from the cohorts. The overarching objective of this longitudinal, observational study is to characterize the safety, effectiveness and practice of treatments for all people with congenital and acquired hematologic disorders in the US. As emphasized in a recently published review, accurate, uniform and quality national data collection is critical in clinical research, particularly for longitudinal cohort studies covering a lifetime of biologic risk.(7)
There have been reports suggesting that progressive RV failure and death in connective tissue disease (CTD) are related to right ventricular hypertrophy (RVH) and dilation, irrespective of pulmonary arterial hypertension (PAH). The investigators aim to identify cardiac markers that occur before RVH and to investigate predictors of RVH.
Heart failure, one of the leading causes of connective tissue disease (CTD) mortality, has attracted increasing attention. Currently, no known study had focused on the effect of sacubitril/valsartan on right ventricular dysfunction and in the systemic disease induced heart disease. We aimed to observe the effect of sacubitril/valsartan on primary endpoints (6 minutes walking test and myocardial fibrosis) in CTD patients with right ventricular ejection fraction reduction (RV-HFrEF).