Clinical Research Directory

The Heart Hive - Cardiomyopathy Study

This is an online registry and database of patients with cardiomyopathy and myocarditis, coupled with an observational study of cardiomyopathies.

Myocardial Injury and Outcomes Following COVID-19 Vaccination (MYOVAX Study)

The study will focus on cardiac blood and imaging biomarkers to facilitate early recognition of patients at risk for myocardial injury after COVID-19 vaccination. Ultimately, the intention is to identify patients at risk, reduce adverse events, and determine the need for longer-term follow-up in patients with myocardial injury after vaccination.

Routine Versus Provisional Distal Perfusion Catheter Placement in Patients Undergoing Mechanical Circulatory Support

A prospective, multi-center, open label, randomized controlled, superiority trial to compare clinical outcomes between routine distal perfusion catheter (DPC) insertion versus provisional distal perfusion catheter (DPC) insertion in the occurrence of sign or symptom of acute limb ischemia in patients undergoing mechanical circulatory support (MCS) through femoral artery approach.

COVID-19 Vaccine-induced Inflammatory Heart Disease Prevalence Registry

Myocarditis and pericarditis are inflammatory diseases of the myocardium and pericardium, and can be related to different causes, including vaccines. In the past, some people developed inflammatory heart disease after receiving a live or inactive virus vaccine (smallpox vaccine or flu vaccine). Myocarditis was also seen in people with COVID-19. More recently, many countries reported that some people have developed an inflammatory condition of the myocardium or pericardium after receiving a vaccine for COVID-19. After the COVID-19 vaccination campaigns, doctors have noticed more people presenting to the Emergency Department with chest pain and shortness of breath after receiving the vaccine, symptoms that resemble myocarditis or pericarditis. These symptoms may start between 2 to 10 days following vaccination and are frequently noticed after the second dose of the vaccines. While pericarditis seems to affect people of various age groups and gender, myocarditis is more commonly seen in young males. The study will consist of two components. 1) The vaccine-induced inflammatory heart disease database will be established. There will be a retrospective chart review looking at vaccine myocarditis/pericarditis (Brighton Criteria Levels 1-3). 2\) There will be a prospective, pragmatic design case-control study for vaccine myocarditis/pericarditis. Follow-up telephone interview will be conducted at 6 months, 12 months and yearly up to 4 years. A record search will also be performed at 6 months, 12 months and yearly for 4 years. The retrospective component of the study will be conducted by identifying patients previously diagnosed with this condition at participating centres.

The Application of T1 Mapping in Real-World

The goal of this observational study is to create a comprehensive real-world spectrum of T1 mapping measurements across different heart conditions. We aim to establish reference values for how heart tissue characteristics vary in various diseases, which will help doctors better interpret these advanced MRI measurements in clinical practice. The main questions it aims to answer are: What are the normal T1 mapping values for different heart diseases, and how do they compare to healthy hearts? Can we use the simpler "native T1" measurement (without contrast dye) instead of the more complex "ECV" measurement (which requires contrast dye) for diagnosis? Patients with various myocardial conditions will undergo CMR T1 mapping scans. We will analyze the MRI images and clinical records to establish disease-specific reference ranges for T1 mapping parameters, and validate the diagnostic accuracy of T1 mapping

Cardiac MRI in Myocarditis and Inflammatory Cardiomyopathy

Myocarditis and inflammatory cardiomyopathy represent a broad spectrum of myocardial inflammatory disorders with highly variable clinical presentations and outcomes, ranging from spontaneous recovery to progressive heart failure, malignant arrhythmias, and sudden cardiac death. Despite advances in clinical management, risk assessment in this population remains challenging due to heterogeneous disease mechanisms, dynamic disease courses, and limited tools for individualized prognostic stratification. Biopsy-proven myocarditis has been reported to be associated with a long-term mortality rate of up to 19.2% over 4.7 years. Cardiac Magnetic Resonance Imaging (CMR) has become a central imaging modality for the evaluation of myocardial inflammation, offering comprehensive assessment of cardiac structure, function, and tissue characteristics. Beyond conventional parameters such as ventricular volumes and ejection fraction, advanced CMR techniques, including late gadolinium enhancement and parametric mapping, enable noninvasive characterization of myocardial injury, edema, and fibrosis. Emerging quantitative and distribution-based imaging markers further expand the potential of CMR to capture myocardial heterogeneity. However, the clinical implications of diverse CMR phenotypes in myocarditis and inflammatory cardiomyopathy, particularly their value for outcome prediction and risk stratification, remain incompletely defined. This study aims to systematically evaluate CMR-derived phenotypes and their association with clinical outcomes, and to explore the role of CMR in improving risk stratification strategies in patients with myocarditis and inflammatory cardiomyopathy. Where available, genetic data will be integrated to explore potential relationships between CMR phenotypes and underlying genetic variations, further informing disease characterization and risk assessment.

IMPRoving Cardiovascular RiSk Stratification Using T1 Mapping in General populatION

Magnetic properties of myocardial tissue change in the presence of disease. This is detectable in the change of rate of magnetic relaxation, and measurable by T1 and T2 mapping using cardiovascular magnetic resonance (CMR). These markers provide novel quantifiable imaging measures for myocardial tissue characterisation. Despite similar principles, the measurements differ considerably between different sequences, vendors and field strengths, yielding a necessity to establish robust sequence-specific normal ranges, diagnostic accuracy, relationships with clinical characteristics, cardiovascular risk factors, routine cardiac imaging parameters, and prognosis. A further unknown relates to separation between healthy myocardium and subclinical disease in subgroups of patients with suspected cardiac involvement. Examples include patients with possible inflammation, such as in patients with a recent COVID-19 infection or vaccination. Anticipated recruitment of a total of 3000 subjects, with 1500 subjects per field strength (1.5 and 3.0 Tesla).

FDG-PET as an Imaging Modality to Diagnose and Risk Stratify Subclinical, Imaging Negative Ici-Myocarditis

The purpose of this pilot study is to evaluate Fluorodeoxyglucose - Positron Emission Tomography (FDG-PET) as an imaging modality to diagnose and risk stratify subclinical, imaging negative ICI-myocarditis, and to determine whether subclinical ICI-induced myocarditis is a distinct and clinically relevant entity with a risk of progression to fulminant myocarditis.

A Study to Learn About The COVID-19 (Study) Vaccine (Called COMIRNATY) in People That Are Less Than 21 Years Old.

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: 1. Are age \<21 years. 2. Have presentation to participating medical center with evaluation in Emergency Room and/or hospitalization. 3. Received either the 1st, 2nd, 3rd or booster dose(s) of COMIRNATY within 7 days of symptom onset. 4. Meet criteria of Centers for Disease Control and Prevention case definition of probable or confirmed myocarditis/pericarditis 5. 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.

Outcome of Clinical Phenotypes of Pediatric Myocarditis at Assiut University Children Hospital

This study aims to investigate the clinical phenotypes, management approaches, and outcomes of myocarditis in children admitted to Assiut University Children's Hospital. Myocarditis is an inflammatory disease of the heart muscle that can present in different clinical forms, including acute, fulminant, chronic active, and chronic persistent types. These forms vary in severity, treatment needs, and long-term outcomes. Children aged 1-18 years who are diagnosed with myocarditis based on clinical findings, cardiac biomarkers, echocardiography, and electrocardiography (with MRI when available) will be included. Patients with congenital heart disease or cardiomyopathy unrelated to myocarditis will be excluded. The study will follow eligible patients prospectively over a 12-month period. Detailed clinical assessment, laboratory tests, echocardiographic findings, and management strategies will be recorded. Special attention will be given to the role of corticosteroids and intravenous immunoglobulin (IVIG) in treatment. Outcomes including recovery of cardiac function, need for intensive care, and survival will be assessed. By analyzing the clinical presentation, treatment, and prognosis of different myocarditis phenotypes, this study aims to improve the understanding of disease patterns in children and provide evidence to guide future management.

Myocarditis Causing Premature Ventricular Contractions:Insights From the MAVERIC Registry

To assess potential link between unrecognized myocardial inflammation (myocarditis) and premature ventricular contractions (PVCs) associated with and without reduced Left ventricular ejection fraction (LVEF) through comprehensive diagnostic work up.

The ORCHESTRATE-Myocarditis Registry

A retrospective, observational study consisting of patients who presents with typical/atypical chest pain and have an ensuing negative ischemic evaluation

Role of Novel ILR in the Management of PVCs

This prospective, observational study is a single center clinical registry of patients referred for management of symptomatic or asymptomatic Premature Ventricular Contractions (PVCs). Subjects will be followed through 12 months. The study will enroll approximately 50 patients.

Cardiomyopathies and Heart Muscle Diseases: Cardiac Imaging in the Evaluation of Myocardial Fibrosis Transition

Heart scarring, also known as fibrosis, plays a major role in a lot of heart muscle abnormalities. These abnormalities of the heart muscle can lead to major issues such as symptoms of heart failure, dangerous heart rhythm disturbances and even death. However, a lot of these conditions are still not fully understood and treatment options are limited. We here aim to use a new radioactive dye called 68Ga-FAPI to identify patterns and the activity of heart muscle scarring. This radioactive dye is being used in humans particularly in identifying and monitoring cancers and has shown promise in identifying scarring in the heart as well. This will help us not only understand the underlying disease process and risk stratify these patients but also potentially help us develop new targeted therapies that can affect heart muscle scarring. Participants will undergo a baseline MRI scan using this new dye and a plain MRI scan will repeated 12-18 months after to see if there are any changes in the process.

A Study to Assess Long-term Outcomes of Myocarditis Following Administration of COVID-19 mRNA Vaccine (SPIKEVAX)

The main goal of this study is to characterize presentation, clinical course, and long-term outcomes of myocarditis temporally associated with administration of mRNA-1273 (SPIKEVAX) COVID-19 vaccine.

Efficacy of a Myocardial Panel in the Management and Treatment of Pediatric Myocarditis

The goal of this observational study is to determine the efficacy a of combined management and treatment driven by the systematic determination of viral genome, bacterial serology, and markers of inflammation in pediatric patients (\< 18 years old) diagnosed with myocarditis complicated by arrhythmias (supraventricular and ventricular tachycardias and heart block) or ventricular dysfunction (left ventricular ejection fraction \< 50% or right ventricular fractional area change \< 35%). The main question it aims to answer is: Does this panel help resolve arrhythmias or myocardial dysfunction due to myocarditis during hospitalisation and follow-up? Researchers will compare patients managed and treated in 2024 without applying the myocarditis panel with those enrolled in 2025 who received the panel. Arrhythmias and myocardial dysfunction will be managed in accordance with recent guidelines. Antiviral, antibiotic or immunosuppressive therapies will be implemented in addition to standard therapy when required by the panel.

EACVI Study on Multimodality Cardiovascular Imaging of Inflammatory Cardiovascular Diseases

Inflammatory Cardiovascular Diseases and Autoimmune Rheumatic Diseases (ICARDs) encompass cardiovascular involvement in connective tissue diseases, vasculitis, and primary inflammatory cardiac processes affecting all layers of the heart. ICARDs are associated with increased cardiovascular morbidity and mortality, independently of traditional risk factors, via multiple pathophysiological mechanisms. Diagnosis and prognosis are challenged by the heterogeneity of clinical presentations. Multimodality cardiovascular imaging - including cardiovascular magnetic resonance (CMR), transthoracic echocardiography, and positron emission tomography (PET) - plays a central role in detecting and characterizing inflammatory involvement, and may offer prognostic insights. Given the limited data on the diagnostic and prognostic utility of these imaging modalities in ICARDs, the EACVI-INFLAME study aims to assess the prevalence of confirmed cardiovascular involvement in patients with suspected or established ICARDs undergoing CMR and/or cardiac PET in a multicentric international cohort.

Acute Myocarditis Registry With Prognostic, Histologic, Immunologic, Biological, Imaging and Clinical Assessment

The AMPHIBIA study is an observational ambispective and prospective cohort that aim to describe the histologic, immunologic, biological, imaging, genetic and clinical characteristics of the patients hospitalized for an acute myocarditis and to evaluate their association with prognosis.

Mayo AVC Registry and Biobank

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

GEAM Study Aims At Assessing the Role of Genetic Testing in Patients with Arrhythmic Myocarditis.

This study aims to answer multiple unsolved questions in the field of arrhythmic myocarditis. * Improving the diagnostic work-up. While endomyocardial biopsy (EMB) and cardiac magnetic resonance (CMR) constitute the gold standard diagnostic techniques for myocarditis, the role of genetic testing is still unclear. Identifying the subset of patients with CGVs, will contribute to justifying the application of genetic testing in myocarditis. * Generating models for risk prediction. Outcomes and arrhythmic risk stratification remain uncertain for myocarditis. Based on an advanced multimodal work-up, multiparametric risk scores may be created and subsequently validated, in order to predict the arrhythmic risk of specific myocarditis, especially in the case of CGVs. * Identifying disease-specific and genotype-specific signatures. Genotype-phenotype associations are expected to benefit from a multimodal and multiparametric approach, in order to allow etiology-specific features in arrhythmic myocarditis. Most of the current signatures are limited to combined EMB-CMR studies. Signatures would likely benefit from implementing additional parameters, including arrhythmia features and myocardial inflammatory status. * Tailoring treatment strategies. Transcriptional analysis will identify overexpressed genes associated with myocarditis and arrhythmias, representing a possible therapeutic target. A multimodal and multidisciplinary model will integrate phenotype, genotype, and transcriptional profile for a personalized treatment.

AI-enabled Screening and Diagnosis of Cardiomyopathies Using Coronary CTA

The goal of this observational and diagnostic study is to develop and validate an artificial intelligence assisted approach for coronary computer tomography angiography-(CCTA)-based screening and diagnosis of cardiomyopathies in patients with suspected coronary artery diseases. This study aims to develop a computerized CCTA interpretation using artificial intelligence for multi-label classification task to assist cardiomyopathy diagnosis in the clinical workflow.

AbataCept for the Treatment of Immune-cHeckpoint Inhibitors Induced mYocarditiS

Immune-checkpoint-inhibitors (ICI) have revolutionized treatment for about 20 cancer types. They unleash anti-tumor immune responses. Unfortunately, in 0.36-1.23% of patients, this activation can also lead to lethal immune-related adverse events (irAEs) that can affect any organ. Among those irAEs, ICI-induced myocarditis was the most frequently fatal with death rate reaching 50% in a large case-series of over 100 patients. This study is a dose-finding Phase II trial where 3 abatacept IV regimen (A-10 mg/kg; B-20 mg/kg and C-25 mg/kg at Day0, Day5+/-2, Day14+/-2) will be tested aiming at reaching promptly (after the first dose) and sustainably a CD86RO≥80% during the first 3 weeks of ICI-myocarditis management. The main objective is to find the lowest dose required to achieve a circulating monocytes CD86RO≥80% within the first week of treatment and sustainably over three weeks. The target population is all adult patients with cancer (all cancer types) treated by immune checkpoint inhibitors (anti-PD1, anti-PDL1, anti-CTLA4 monotherapies or combination) and presenting drug-induced myocarditis.

CMP-MYTHiC Trial and Registry - CardioMyoPathy With MYocarditis THerapy With Colchicine

Two-parallel groups randomized, single-blinded, multi-center phase III controlled trial in patients with chronic inflammatory cardiomyopathy to assess the efficacy of colchicine and associated prospective registry to assess the prognostic value of positive genetic testing in this population.

Image-Based Prediction of Ventricular Tachycardias in Post-Myocarditis Patients: an International Multicenter Case-control Study

Ventricular arrhythmias (VAs) are frequently associated with structural heart diseases (SHD) such as myocardial infarction, myocarditis, and non-ischemic cardiomyopathies. Myocardial fibrotic tissue plays a central role in the genesis and the maintenance of re-entrant VAs associated with post-myocarditis sequelae and late gadolinium enhancement cardiac magnetic resonance (LGE-CMR) has proven to be a useful tool for the non-invasive characterization of the scarred tissue and the underlying arrhythmogenic substrate. Moreover, a post-processing imaging platform named ADAS 3D LV (ADAS3D Medical SL, Barcelona, Spain) allows to analyze the CMR-derived data and to characterize the scar architecture, differentiating between dense (scar core zone) and more diffuse (border zone \[BZ\]) fibrosis, and identifying the BZ channels (BZCs) that are strands of healthy myocardial tissue within zones of unexcitable tissue and connect areas of normal myocardium. It was described that BZCs could serve as slow-conducting reentrant pathways and are critical to entail VA in ischemic and non-ischemic heart disease. However, the pathophysiological role and the correlation between scar architecture and VAs in post-myocarditis patients is yet to be defined. To date, the standard-of-care evaluation for primary prevention implantable cardioverter-defibrillator (ICD) therapy is LVEF-based, leading to the fact that the contemporary rate of appropriated therapies is very low. Moreover, events may also occur in patients with normal to moderately depressed LVEF, which is particularly relevant, as it constitutes the most prevalent population of patients exposed to an increased risk of VAs. Multiple studies reported that LGE at CMR is a strong and specific predictor of VT occurrence and sudden death in post-myocarditis patients. There were reported cases in which even after the normalization of LVEF, the extension of LGE, the scar architecture, and the presence of BZCs at cMR analysis are determinants of the arrhythmic risk in post-myocarditis patients. The Investigators sought to evaluate the usefulness of CMR-derived scar architecture analysis to predict the occurrence of VT events in an international, multicenter, case-control study on unselected post-myocarditis patients without previous arrhythmia evidence. Aim of the study is also to assess the net reclassification improvement (NRI) for the indication of primary prevention ICD implantation using CMR data and post-processing data as compared to LVEF-based indication