22 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn if baricitinib in combination with a background steroid-sparing medication can treat active cardiac sarcoidosis in adults. The main question it aims to answer is: - In patients with active cardiac sarcoidosis, does treatment with baricitinib improve cardiac sarcoidosis disease activity as assessed by changes on cardiac FDG-PET/CT? Participants will: * Take baricitinib in combination with a steroid-sparing therapy for up to 16 weeks * Visit the clinic every two to four weeks for checkups and tests * Be asked to complete questionnaires to see how they feel on baricitinib and medication diaries to record when they take baricitinib
The primary objective of this study is to evaluate the effect of rilonacept, added to standard therapy and compared with standard therapy alone, on improvement in myocardial inflammation in subjects with cardiac sarcoidosis after 24 weeks of therapy.
A Randomized, Double-blind, Placebo-controlled, Study with an Open-label Cohort.
Sarcoidosis is a heterogeneous disorder of unknown etiology whose signature lesions are granulomatous inflammatory infiltrates in involved tissues. Tissue commonly affected are lungs, skin, eyes, lymph nodes and the heart. In this latter case, cardiac sarcoidosis (CS) can lead to atrioventricular (AV) blocks, ventricular arrhythmias, heart failure (HF) and sudden cardiac death. Similar to other involved organs, cardiac disease generally progresses from areas of focal inflammation to scar. However, the natural history of CS is not well characterized complicating an immediate and definitive diagnosis. The management of CS often requires multidisciplinary care teams and is challenged by data limited to small observational studies and from the high likelihood of side effects of most of the treatments currently used (eg: corticosteroids, methotrexate and TNF-alfa inhibitors). Interleukin-1 (IL-1) is the prototypical pro-inflammatory cytokine, also referred to as master regulator of the inflammatory response, involved in virtually every acute process. There is evidence that IL-1 plays a role in mouse model of sarcoidosis and human pulmonary lesions as the presence of the inflammasome in granulomas of the heart of patients with cardiac sarcoidosis, providing additional support for a role of IL-1 in the pathogenesis of CS. However, IL-1 blockade has never been evaluated as a potential therapeutic agent for cardiac sarcoidosis. In the current study, researchers aim to evaluate the safety and efficacy of IL-1 blockade with anakinra (IL-1 receptor antagonist) in patients with cardiac sarcoidosis.
The purpose and objectives of the study is to establish the feasibility of the simultaneous PET/MR in patients with cardiac sarcoidosis, determine relationships between various imaging biomarkers like extracellular volume (ECV) and standardized uptake values (SUV) from FDG-PET and to evaluate the diagnostic accuracy of the simultaneous method in comparison to the PET/CT and cardiac MRI.
Sarcoidosis is a multisystem granulomatous disease of unknown cause that can affect any organ in the body, including the heart. Granulomatous myocarditis can lead to ventricular dysfunction and ventricular arrhythmias causing significant morbidity and mortality. Immunosuppressive therapy (IST) has been shown to reverse active myocarditis and preserve left ventricular (LV) function and in some cases improve LV function. In addition, IST can suppress arrhythmias that develop due to active myocarditis and prevent the formation of scar. The potential role of cardiac biomarkers, including brain natriuretic peptide (BNP), atrial natriuretic peptide (ANP), and cardiac troponins, in detecting active myocarditis is limited and studies have been disappointing. At present, there are no biomarkers to detect active myocarditis and the use of advanced imaging modalities (FDG-PET) for assessing and monitoring active myocarditis is not feasible or practical and is associate with high radiation exposure. As such, a biomarker that is reflective of active myocarditis and that is cardiac specific will assist physicians in assessing the presence of active myocarditis to guide therapeutic decisions and to assess response to therapy which can limit further cardiac damage. Cell free DNA (cfDNA) are fragments of genomic DNA that are released into the circulation from dying or damaged cells. It is a powerful diagnostic tool in cancer, transplant rejection and fetal medicine especially when the genomic source differs from the host. A novel technique that relies on tissue unique CpG methylation patterns can identify the tissue source of cell free DNA in an individual reflecting potential tissue injury. We will be conducting a pilot study to explore the utility of this diagnostic tool to identify granulomatous myocarditis in patients with sarcoidosis.
Gallium-68 DOTATATE is a radioactive tracer, a type of imaging drug that is labeled with a radioactive tag and injected into the body, which is approved by the U.S. Food and Drug Administration (FDA) to diagnose certain tumors. The study will see how the tracer is taken up in your heart before and after treatment using an imaging scan called Positron Emission Tomography / Computed Tomography (PET/CT). Investigators are doing this research study to find out if DOTATATE can help doctors diagnose people with cardiac (heart) sarcoidosis better as well as serve as a follow-up monitoring tool for a response to therapy.
Prospective randomized controlled trial comparing low dose Prednisone(or Prednisolone)/Methotrexate combination to standard dose Prednisone(or Prednisolone) in patients diagnosed with acute active clinically manifest cardiac sarcoidosis and not yet treated. The Investigators hypothesize that low dose Prednisone(or Prednisolone)/Methotrexate combination will be as effective as standard dose Prednisone(or Prednisolone), and result in significantly better quality of life and less toxicity than standard dose Prednisone(or Prednisolone).
The Researchers are trying to determine if 68Ga-DOTATATE PET/CT imaging will have a similar accuracy as 18FDG PET/CT in diagnosing cardiac sarcoidosis and if it will be able to do so without the need for complex patient dietary preparation that is required with 18FDG PET/CT.
The investigators will evaluate the detection of cardiac sarcoidosis or inflammation using 18F-FSPG PET/MRI (or PET/CT for participants with metal implants).
The purpose of this research study to find out if a drug called OctreoScan or DOTATATE can help doctors diagnose people with cardiac sarcoidosis better. OctreoScan and DOTATATE are both approved by the U.S. Food and Drug Administration (FDA) to diagnose certain tumors.
In a study of Cardiac sarcoidosis, a serious heart condition, a radiotracer is being used to examine inflammation.
The purpose of this study is to identify patients with cardiac sarcoidosis who may be at risk for sudden death.
This is a pilot mechanistic study of the diagnostic utility of sodium-glucose cotransporter-1/2 inhibition (SGLT1/2) on myocardial glucose suppression on FDG PET/CT. The investigators will test whether the addition of a SGLT1/2 inhibitor (SGLT1/2i) plus the standard dietary modification (ketogenic diet) will provide enhanced myocardial glucose suppression. The primary objective is to assess rates of complete myocardial glucose suppression (MGS) with 7 days of sotagliflozin 400 mg QD among healthy volunteers on a background of 1 day (N=20) or 3 days (N=20) of the KD. The secondary goal is to investigate the relationship between sotagliflozin, targeted metabolite levels, and myocardial glucose utilization on FDG-PET. Participants will be asked to: * undergo a screening visit that includes blood tests, vitals, and questions regarding health history/medications * take the provided sotagliflozin as instructed for 7 days leading up to the scan * follow a ketogenic diet as instructed for 1 or 3 days leading up to the scan * undergo an FDG PET/CT scan, which includes vitals and blood draws
This protocol is an unblended randomized screening trial will have consecutive patients with no suggestion of cardiac sarcoidosis according to usual screening enroll in an enhanced screening protocol. The routine clinical care is to gather patient's history of symptoms and under go an ECG. If a patient has an abnormal results in standard screening, they typically have further evaluations as part of their routine medical care. These tests might include an echocardiogram, ambulatory ECG, and advanced cardiac imaging (MRI, PET scan as per local practice). A patient that has normal results on standard screening will be randomly assigned to enhanced screening at each center. Half the patients will be randomized to usual follow-up (annual symptom assessment and ECG) and the other half will be assigned to the enhanced screening (echocardiogram and ambulatory ECG at enrollment and at 24 months). The investigators hypothesize that screening using conventional history, physical and ECG in the general sarcoidosis population, followed by appropriate advanced imaging testing, will result in the identification of a higher percentage of ascertained cardiac sarcoidosis than has been reported historically (2-5%). The investigators hypothesize that routine use of echocardiogram with strain and ambulatory ECG will identify additional patients who will have advanced imaging abnormalities or who meet criteria for cardiac sarcoidosis. The investigators further hypothesize that re-screening patients after 24 months with repeat echocardiogram and ambulatory ECG will identify additional patients with suspicion for cardiac sarcoidosis who had no abnormalities on the standard screening tests.
The study objective is to identify the earliest changes in energy substrate metabolism in patients with cardiomyopathies (CMP). To achieve this objective, we plan first to test the hypothesis that patients with CMP present focal alterations in myocardial hyperpolarized \[1-13C\]pyruvate flux.
Arrhythmogenic ventricular cardiomyopathy (AVC) is a genetic condition which affects the heart and can lead to heart failure and rhythm problems, of which, sudden cardiac arrest or death is the most tragic and dangerous. Diagnosis and screening of blood-relatives is very difficult as the disease process can be subtle, but sufficient enough, so that the first event is sudden death. The Mayo Clinic AVC Registry is a collaboration between Mayo Clinic, Rochester, USA and Papworth Hospital, Cambridge University Hospitals, Cambridge, UK. The investigators aim to enroll patients with a history of AVC or sudden cardiac death which may be due to AVC, from the US and UK. Family members who are blood-relatives will also be invited, including those who do not have the condition. Data collected include symptoms, ECG, echocardiographic, MRI, Holter, loop recorder, biopsies, exercise stress testing, blood, buccal and saliva samples. Objectives of the study: 1. Discover new genes or altered genes (variants) which cause AVC 2. Identify biomarkers which predict (2a) disease onset, (2b) disease progression, (2c) and the likelihood of arrhythmia (ventricular, supra-ventricular and atrial fibrillation) 3. Correlate genotype with phenotype in confirmed cases of AVC followed longitudinally using clinical, electrocardiographic and imaging data. 4. Characterize desmosomal changes in buccal mucosal cells with genotype and validate with gold-standard endomyocardial biopsies
This study aims to evaluate the efficacy and safety of inhaled treprostinil in subjects with sarcoidosis-associated interstitial lung disease and pulmonary hypertension.
The primary objective of this study was to determine the ability of cardiac magnetic resonance (CMR) to identify cardiac involvement in patients with sarcoidosis. Patients were to undergo CMR in addition to routine clinical evaluation.
The purpose of this research study is to learn about the safety of transplanting lungs obtained from non-heart-beating donors (NHBDs) that have been ventilated (attached to a breathing machine or ventilator to deliver oxygen) and perfused with a lung perfusion solution (Steen solution™, made by Vitrolife). This ventilation and perfusion will be done outside the body (ex-vivo) in a modified cardiopulmonary bypass circuit (the kind of device used routinely during most heart surgeries). The purpose of performing ex-vivo perfusion and ventilation is to learn how well the lungs work, and whether they are likely safe to transplant.
Evaluate MyoStrain cardiac MRI pulse sequence in Clinical practice
Determining the etiology of cardiomyopathy is of high clinical importance for optimal treatment strategy and prediction of prognosis. There is increased risk for cardiovascular disease and higher propensity for cardiovascular related mortality among Black and non-Hispanic White patients. Recently, advanced cardiac imaging has become a vital tool in diagnosis and risk stratification of cardiovascular disease. Very limited data is available on the prevalence and characteristics of different cardiovascular diseases in Hispanic and African American minority groups, therefore, studying different racial and ethnic minority groups in the Bronx population is an exceptionally valuable source to determine the prevalence of cardiomyopathies among minority groups along with study survival in this population. This study aims to determine the etiology of cardiovascular disease in a diverse patient population by utilizing various cardiovascular imaging modalities, with a focus on cardiac magnetic resonance (CMR) imaging and to develop risk stratification models by applying advanced cardiovascular imaging markers.