Active clinical trials for "Myocarditis"

The purpose of this clinical trial is to learn about the safety and effects of the study vaccine (called COMIRNATY) for the potential prevention of COVID-19. This study is seeking participants who: Are age <21 years. Have presentation to participating medical center with evaluation in Emergency Room and/or hospitalization. Received either the 1st, 2nd, 3rd or booster dose(s) of COMIRNATY within 7 days of symptom onset. Meet criteria of Centers for Disease Control and Prevention case definition of probable or confirmed myocarditis/pericarditis Are capable of giving signed informed consent/assent (by parents/legal guardians of minors and/or patients), which includes compliance with the requirements and restrictions listed in the Informed Consent/Assent Document and in this protocol OR meets criteria for waiver of consent. This study will examine the potential long-term effects associated with myocarditis/pericarditis following vaccination with COMIRNATY. The association of myocarditis/pericarditis in participants who received the study vaccine (COMIRNATY) compared with those associated with COVID-19 will also be examined. This will help us determine if COMIRNATY is safe and effective, and if there is a myocarditis/pericarditis association that should be noted. Participants will take part in this study for up to 5 years. During this time, they will receive complete cardiac imaging tests, and have follow up visits per guidance stated in the study protocol.

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.

Spectral cardiac CT scan performed in an emergency setting in patients with suspected acute myocarditis and presenting one selves with an acute chest pain, allows the non-invasive assessment of both the coronary arteries and the myocardium. Delayed iodine contrast-enhanced CT imaging should show the inflamed area with an increased uptake of iodine contrast agent in the interstitial space, such as the well-known hypersignal seen on the myocardial delayed enhancement sequence with MRI (corresponding of an uptake of gadolinium contrast agent in the abnormal myocardium). This technique has the potential to replace MRI, thus allowing the diagnosis of acute myocarditis with a rapid and easily accessible technique. Moreover, it has the additional benefit of avoiding invasive coronary angiography in the specific population of patients without any significant risk factors of atheromatous disease.

This prospective imaging study investigates the diagnostic ability of Gallium-68 DOTA-TOC (68Ga-DOTA-TOC) positron emission tomography/computed tomography (PET/CT) in the clinical work-up of patients with 1) clinically suspected acute myocarditis (n=30-40) and 2) clinically suspected cardiac sarcoidosis (n=30-40) using clinical diagnostic criteria as well as endomyocardial biopsy as reference. Furthermore, 68Ga-DOTA-TOC PET/CT findings will be compared with results from contrast-enhanced magnetic resonance imaging (MRI) and in case of cardiac sarcoidosis even Fluorine-18 fluorodeoxyglucose (18F-FDG) PET/CT, which are both performed as part of the clinical routine work-up.

Acute myocardial inflammation is an heterogenic syndrome involving different clinical pathologies with different outcome. For the purpose of this study protocol, we focuse on three entities of this syndrome, namely the acute cellular cardiac allograft rejection (ACR), cardiac sarcoidosis (CS) and the immune checkpoint inhibitor induced myocarditis (ICIM), for which non-invasive diagnosis remains challenging. Since accurate diagnosis of myocardial inflammation in an early stage is crucial, this study aims to investigate the accuracy of [68Ga]Ga-PentixaFor as a marker of for the presence of inflammatory cells (T-lymphocytes and M1) in described patients. The identification of a correlation between [68Ga]Ga-PentixaFor myocardial accumulation with currently accepted diagnostic tools would open up new ways to non-invasively diagnose acute myocardial inflammation.

Infectious myocarditis are frequent, most of the time viral and can evolve to cardiac insufficiency. The diagnosis is difficult because they can mime an acute coronary syndrome. Approximately 10 % of patients with acute infarction suspected, have a normal angiography, and half of them has in fact a myocarditis, as showed studies of cardiac MRI among which some realized in our department . However, anomalies observed in MRI are not specific and it is necessary to use multiple criterions. A new radiopharmaceutical, the 68Ga-DOTATOC, specific of somatostatin's receptors which are over expressed by the inflammatory cells, has recently showed the capacity to identify myocarditis, but only in a small group of 6 patients. The investigators make assumptions: this radiopharmaceutical is enough sensitive to detect most of the acute inflammatory myocarditis which are identified by the MRI and it could maybe allow to identify myocarditis with a persistent subacute or chronic inflammation, which are difficult to identify with cardiac MRI, and it would be a new information able to guide the medical decision. Primary objectif: to determine if PET with 68Ga-DOTATOC is enough sensitive to identify myocarditis in acute inflammatory phase by hospitalized patients with suspected acute infarction and with normal angiography and who have a high probability of myocarditis identified by MRI. Disease prevalence will be close to 100 % at baseline Secondary objectives: 1. Estimate the frequency of inflammatory forms (subacute or chronicle), with a 68Ga-DOTATOC PET at 3 to 5 months from baseline, when classic signs of acute inflammatory generally disappeared (CRP, Troponin-I, myocardial oedema in MRI). 2. Analyze the concordance of the results of 68Ga-DOTATOC TEP by two readers

The adaptive immune response plays an important role in myocardial healing and remodeling after acute myocardial infarction in patients. Therefore, the involved lymphocytes represent a novel target for therapeutic interventions. However, there are no established blood-derived biomarkers to predict the quantity and quality of the adaptive immune response to cardiac injury. Multimodal imaging of the heart and immunologic organs might provide such information. Recent retrospective analysis of patients after MI revealed enlarged mediastinal lymph nodes associated with increased CXCR4 radiotracer accumulation, thereby indicating that CXCR4 PET-based lymph node imaging provides a non-invasive quantitative readout of the local adaptive immune response. These considerations are further fuelled by the fact that, within lymph nodes, CXCR4 is expressed almost exclusively on lymphocytes, whereas various other cell types express CXCR4 within the myocardium. This leads to the hypothesis that the size of mediastinal lymph nodes and their respective CXCR4 PET signals correlate with the adaptive immune response to cardiac injury and might provide predictive information for functional cardiac decline during follow-up. This prospective clinical study will use multimodal imaging to monitor chemokine receptor 4 (CXCR4) expression in the lymph nodes, myocardium, spleen, and bone marrow after acute MI. The combination of cardiac magnetic resonance (CMR), echocardiography, and positron emission tomography (PET) along with blood collection for immunophenotyping will allow to determine i) if the size of mediastinal lymph nodes and their respective PET-derived CXCR4 signals at baseline correlate with the adaptive immune response to acute cardiac injury; and ii) if they predict cardiac adverse remodelling during longitudinal follow-up.

The overall goal of this project is to evaluate the clinical potential of fast quantitative myocardial tissue characterization using recently emerged Cardiac Magnetic Resonance Imaging (CMR) techniques to aid the diagnosis, treatment, and follow up of patients with myocardial diseases, such as ischemic heart disease, cardiomyopathies, and myocarditis.

The aims of this case-control, non-randomized study including patients with post-COVID-19 persisting symptoms are 1) to establish the large blood biobank, 2) to examine levels of circulating inflammatory biomarkers and different classes of non-coding RNAs (ncRNA), such as selected circRNAs and miRNAs, in plasma and serum samples collected from patients with post- COVID-19, 3) to test the levels of cfDNA in plasma and serum, 4) to define correlation between ncRNAs and cf-DNA with persistent clinical symptoms, and type of symptoms, and 5) to investigate diagnostic and prognostic performances of these circulating biomarkers. Study design. This is a prospective registry including biobank.

G-COR is the first Global Prospective Cardio-Oncology Registry. It is a multinational, multicenter prospective observational cohort registry, with the goal of collecting clinical, laboratory, imaging, demographic, and socioeconomic data to identify risk factors associated with increased incidence of cancer therapy related cardiovascular toxicity (CTR-CVT) in different settings and to derive and validate risk scores for cardio oncology patients treated in different geographic locations throughout the world.