View clinical trials related to Sarcoidosis, Pulmonary.
Filter by:Sarcoidosis is a granulomatous disease for which the molecular and immunologic association with mycobacteria continues to strengthen. The investigators are interested in conducting a proof-of-concept investigation of the effects of antibiotics on sarcoidosis resolution. The investigators hypothesize that pulmonary sarcoidosis will improve faster if patients are given antimycobacterial therapy, in addition to their standard therapy.
Progressive pulmonary sarcoidosis occurs in up to twenty percent of patients who require persistent treatment, but available treatment options have shown considerable long-term toxicity and uncertain or unproven efficacy. In these patients, pulmonary fibrosis and pulmonary hypertension are common complications which have major prognostic impact. Endothelin-1 (ET-1) has been demonstrated to play a key role in pulmonary fibrosis and pulmonary hypertension, and a potential role in pulmonary sarcoidosis. ET-1 is a potent vasoconstrictor and can promote fibrosis, cell proliferation, and remodeling, and is pro-inflammatory. Preliminary data have shown the therapeutic potential of the endothelin receptor antagonist (ERA) bosentan in sarcoidosis associated pulmonary hypertension. In this light, the therapeutic potential of bosentan as an add-on treatment in progressive pulmonary sarcoidosis needs to be evaluated.
Sarcoidosis is a inflammatory disease affecting many parts of the body, especially the lungs. While most patients do well, there is a group of patients who require continuous doses of prednisone or other drugs. The current study will determine the role of Rituximab as new agent for patients with refractory disease.
to determine the genetic pathways operating at the tissue level to cause granulomatous inflammation in the lungs and lymph nodes of patients with sarcoidosis. By so doing, we hope to identify unique genetic mechanisms which will aid in the diagnosis of sarcoidosis and will help us understand the pathogenesis of this poorly understood disease.
The purpose of this study is to determine the efficacy of influenza vaccine (antibody response) in patients with sarcoidosis.
The purpose of this study is to compare peoples with disease (sarcoidosis) to those without disease. We want to see if people with sarcoidosis have a different immune response to those people without disease. The goal of this study is to see if the nicotine patch is an anti-inflammatory treatment for sarcoidosis.
This study will determine if atorvastatin (Lipitor), a widely used cholesterol-lowering drug, can help patients with pulmonary (lung) sarcoidosis and replace or reduce the need for patients to take steroids, such as prednisone. Sarcoidosis is an inflammatory disease that can affect nearly any part of the body. Pulmonary sarcoidosis may resolve on its own or it may progress to irreversible lung damage, disability, and death. Many sarcoidosis patients are treated with prednisone, but the drug is not effective in all patients, and it can cause serious side effects, such as high blood pressure, sugar diabetes, eye cataracts, and bone thinning. Patients with stage II or III pulmonary sarcoidosis between 18 and 70 years of age who require prednisone may be eligible for this study. Candidates are screened with the tests and procedures described below. Participants are randomly assigned to one of two treatment groups: one group takes atorvastatin; the other takes a placebo (a look-alike pill that has no active ingredient to fight sarcoidosis). Both groups take the pills by mouth once a day for 12 months. When treatment begins, participants begin to have their prednisone dosage tapered (reduced). The tapering is done over 8 weeks until the dose is reduced by 90 percent. Patients are evaluated periodically to determine if the two groups differ in how long they can remain on the reduced dose of prednisone without having their symptoms recur, requiring an increase in the prednisone dose. A full battery of tests is done at the initial screening visit and at the 26- and 52-week follow-up visits, requiring hospitalization for 3-5 days. Additional interim outpatient assessments are done at 6, 12, 18 and 36 weeks. The full battery of tests at the initial screening and the 26- and 52-week visits includes the following: - Medical history, physical examination, blood and urine tests, assessment of disease severity and activity. - Questionnaires. - Chest x-ray (CXR) and computed tomography (CT) scan. - Abdominal ultrasound. - Six-minute walk test (6MWT): test to see how far the subject can walk in 6 minutes. - Exercise testing and blood gases: Patients exercise on a stationary bicycle or treadmill while their heart and lung function are monitored. During the test, arterial blood gases are measured to determine the amount of oxygen and carbon dioxide in the blood. - Pulmonary function tests (PFT): Patients are asked to breathe deeply and, occasionally, to hold their breath. They may be given a medicine called albuterol that dilates the airways. - Maximum incremental ventilatory performance test (MIVP): Patients breathe normally through a mouth piece. The test system makes it increasingly difficult to inhale. Patients stop when they feel fatigued. - Exhaled nitric oxide and carbon monoxide (Exhaled NO and CO): Patients breathe out into a tube that collects exhaled air (gases). - Bronchoscopy and lavage: The patient's mouth and throat are numbed with lidocaine; a sedative and morphine-like drug are given for comfort. A tube is passed through the nose or mouth into the lung airways to examine the airways. Saline (salt water) is then injected through the bronchoscope into the air passage, and a sample of fluid is withdrawn for microscopic examination. Patients who do not have confirmation of their lung disease may also undergo biopsy at the time of lavage. For the biopsy, a small piece of tissue is extracted from the wall of the breathing tubes (bronchi) or the lymph nodes. Interim testing at 6, 12, 18 and 36 weeks includes PFT, MIVP, Exhaled NO and CO, CXR, questionnaire, blood tests, and 6MWT. Six months after completing the study, participants fill out a questionnaire.
Corticosteroids are presently the drug of choice for the treatment of pulmonary sarcoidosis. However, corticosteroids are associated with many significant side effects. For this reason, it would be beneficial to find an alternative agent to corticosteroids for the treatment of pulmonary sarcoidosis. This study is an open label trial of mycophenolate for new onset pulmonary sarcoidosis. Patients are candidates for this study if they have biopsy proven pulmonary sarcoidosis and a vital capacity or FEV1 less than 80% of predicted. Patients must undergo bronchoscopy where not only is the diagnosis of pulmonary sarcoidosis required, but in addition, cells are obtained from bronchoalveolar lavage. If the patients are diagnosed with pulmonary sarcoidosis, they are placed on an initial dose of 500mg BID of mycophenolate for 1 week. If their blood counts are not affected on this dose and they have no significant symptoms that are thought to be drug related, then their dose is escalated to 1g BID for the remaining 9 weeks of the study (the total study drug therapy time is 10 weeks). The patients are followed with multiple study visits. At these visits blood tests are drawn to make sure that there are no significant side effects from mycophenolate. In addition, the patients have a history and physical performed to evaluate the clinical state of their sarcoidosis and to detect mycophenolate side effects. On completion of 10 weeks of mycophenolate therapy, the patients undergo a second bronchoscopy with bronchoalveolar lavage to obtain cells for analysis. The patients are evaluated with spirometry, measurements of shortness of breath (dyspnea), and a quality of life scale (SF36) at serial visits during their study. The primary endpoint of the study is improved, unchanged or worse FVC. It is hoped that this pilot study will suggest that mycophenolate is a reasonable treatment option for new onset pulmonary sarcoidosis.
Sarcoidosis is a disease most commonly affecting the lungs, but it can also involve lymph nodes, skin, liver, spleen, eyes, bones, and glands. The cause of the disease is unknown. When it occurs it can produce an inflammatory reaction leading to irreversible organ damage and disability. In sarcoidosis granulomas can form in various organs (primarily lung) which can lead to its dysfunction. Granuloma is formed by clusters of inflammatory cells. The formation of these granulomas is influenced by the release of a substance called TNF-alpha (tumor necrosis factor alpha) which is found in some white blood cells. A drug known as pentoxifylline (POF) is known to markedly reduce the release of TNF-alpha. The standard medical treatment for sarcoidosis is steroid therapy. However, steroid therapy is associated with significant side effects and often must be stopped. Unfortunately, some of these patients can relapse when the steroid therapy is discontinued. Because of this, researchers are interested in finding alternative therapies for the treatment of sarcoidosis. This study will evaluate the effectiveness of giving POF to patients with sarcoidosis currently taking steroids. Researchers will compare the results between patients taking steroids with pentoxifylline and those patients taking steroids alone.
This study is designed to evaluate the genetics involved in the development of lung disease by surveying genes involved in the process of breathing and examining the genes in lung cells of patients with lung disease. The study will focus on defining the distribution of abnormal genes responsible for processes directly involved in different diseases affecting the lungs of patients and healthy volunteers. Optional CT Sub-study The standard CT scan will be compared to the low dose radiation CT scan for the 150 subjects enrolled in the sub-study to assess the variation between the two techniques. Specifically, the quantitative computer aided detection of lung CT abnormalities from LAM can be compared to assess whether low radiation dose CT exams is an alternative to conventional CT to monitor disease status. This optional sub-study will be offered to up to 100 adult subjects with lung disease and up to 50 children age 9 and older with CF. Children will not be enrolled in the optional CT sub-study unless they have had a standard CT scan for medical purposes to use in comparison. One additional low dose radiation CT scan of the chest may be done as part of this sub-study when these subjects have their next annual CT scan.