Active clinical trials for "Sarcoidosis"

Renal sarcoidosis treatment is based on steroids, but the dose and duration are unknown. Despite this treatment, most patients will have chronic kidney disease. From our previous studies, the investigators believe that high dose steroids by methylprednisolone bolus will improve patient outcome and renal function.

The purpose of this study is to determine how safe and effective Abatacept is in treating patients who have progressive pulmonary sarcoidosis.

The primary objective of the study is to assess the safety and tolerability of a single dose of PDA001 (given twice) in subjects with Stage II or III Pulmonary Sarcoidosis (PS) who are refractory to one or more of the following treatments for PS: methotrexate,immunosuppressants or cytotoxic agents.

The purpose of this study is to determine whether methotrexate is a effective corticosteroid sparing agent in the treatment of sarcoid-associated uveitis.

The main purpose of the present study is to compare the diagnostic yield of different aspiration techniques in Ultrasound-guided Transbronchial Needle Aspiration (EBUS-TBNA) in the diagnosis of hilar/mediastinal adenopathy

Inflammatory cardiomyopathies are associated with inflammation and impaired function of the heart muscle and encompass myo- and pericarditis and cardiac sarcoidosis. Due to the heterogeneity of the clinical manifestations, establishing the diagnosis and prediction of outcome is challenging. Specifically for myocarditis, it is associated with acute and chronic heart failure and sudden cardiac death. Cardiac magnetic resonance imaging (CMR) allows imaging of tissue characteristics (i.e. edema and fibrosis). CMR is the primary diagnostic tool in myocarditis and can also be used for differentiating other inflammatory diseases. Beside the presence of edema, also hyperemia/capillary leak, fibrosis and myocardial function can be assessed and quantified. Previous studies demonstrated the prognostic role of CMR features beyond traditional markers of LV function, but are limited to smaller cohorts and single-center studies. Furthermore, CMR is a rapidly developing modality and as new features of the modality become available, additional research is needed to identify which combination of parameters optimize risk stratification of this heterogenous inflammatory cardiomyopathy. Hence, the goal of the registry is to investigate the diagnostic and prognostic role of clinical techniques in inflammatory cardiomyopathies, particularly CMR, and which combination of features provide the highest potential. This analysis will include new advanced CMR techniques but will also assess the role of other techniques that may be more cost-efficient and more widely available, which could be used as a precursor to CMR imaging exams.

Cardiac sarcoidosis (CS) is a complex disease that is characterized by the formation of inflammatory granulomas in the myocardium. The exact underlying pathophysiology of the disease is not yet fully understood, but it is believed to be related to dysregulation of the immune system. Despite significant progress in recent years, the disease remains difficult to diagnose, and there is a high risk of severe complications such as life-threatening cardiac arrhythmias, severe heart failure, and sudden cardiac death in affected patients. Moreover, the clinical presentation of CS can be similar to other inflammatory heart diseases or familial cardiomyopathies. Thus, it is challenging to differentiate between these diseases, which can lead to a delayed diagnosis and poor prognosis. It is unclear whether certain genetic variants play a role in the clinical course and prognosis of CS, which highlights the need for more research in this area. The diagnosis of CS requires cardiac or extracardiac biopsy with granuloma detection, which is an invasive and complex procedure. Consequently, the disease is thought to be underdiagnosed, and many affected patients may not receive timely treatment, resulting in excess mortality. Early diagnosis and immunosuppressive treatment, as well as defibrillator implantation if necessary, are crucial in delaying disease progression, preventing complications, and improving prognosis. To better understand the key molecular pathological mechanisms underlying the development and maintenance of CS, a prospective, multicenter, exploratory study has been initiated. The project involves the collection, storage, and analysis of biological samples from blood, myocardium, and lymph nodes of patients with cardiac sarcoidosis or cardiomyopathies that present clinically and image morphologically similar. The samples will be used for scientific investigations on disease mechanisms of cardiomyopathies as well as for identification of new biomarkers in cardiomyopathy diagnostics and for follow-up of therapeutic measures. The study will employ a range of classical biochemical methods such as ELISA, RIA, as well as more modern methods of molecular biology (single cell sequencing, single nucleus sequencing) and systems biology (genomics, metabolomics, or proteomics) to identify key molecular pathological mechanisms in the development and maintenance of CS. In addition, genetic analysis will be performed to investigate cardiomyopathy- and ion channel-associated genetic variants, which is critical for improving diagnostics and early, individualized therapy. The study will be conducted on a multicenter basis, with the Heart Center Leipzig serving as the initiator and lead center and the University Hospital Leipzig as the second study center. Biochemical and molecular biological analyses will be performed on behalf of the study management at the Heart Center Leipzig, the University Hospital Leipzig, and the Erich and Hanna Klessmann Institute for Cardiovascular Research and Development of the Heart and Diabetes Center NRW and Max Delbrück Center for Molecular Medicine in Berlin. In conclusion, CS is a complex and challenging disease that requires further research to better understand its underlying mechanisms and improve diagnostic and therapeutic strategies. The prospective, multicenter, exploratory study will provide valuable insights into the disease's key molecular pathological mechanisms and identify new biomarkers for better diagnostics and individualized therapy.

A phase 2b, open label study to assess the safety and efficacy of increasing doses of pulsed, inhaled nitric oxide (iNO) in subjects with pulmonary fibrosis and sarcoidosis on long term oxygen therapy followed by a long term extension study

The investigators conduct a randomized, double-blind, placebo-controlled study to investigate the effects of the fermented oyster extract on muscle strength, muscle mass, and muscle function in healthy adults for 12 weeks.

This randomized, double-blind, placebo matched to efzofitimod-controlled, study will evaluate the safety, tolerability, immunogenicity, pharmacokinetic (PK), and preliminary efficacy of multiple ascending doses of IV efzofitimod in participants with pulmonary sarcoidosis undergoing a protocol-guided oral corticosteroid (OCS) tapering regimen.This study will consist of 3 staggered multiple dose cohorts. Each eligible participant will participate in only one cohort during the study. Within each cohort, 12 participants will be randomized 2:1 to efzofitimod (N=8) or placebo matched to efzofitimod (N=4).