Clinical Research Directory

EDEN Intracardiac Electrogram Recording and Classifying System

Background: Heart surgeons use electrocardiogram (ECG) machines to record electrical signals from the heart during procedures. Normal ECG machines connect only to the skin. Special ECG machines connect directly to the heart; they are a safer option during procedures. Researchers want to test a new ECG machine called the EDEN system. Objective: To test the EDEN system in people having heart procedures. The new system will be used along with an approved special ECG machine. Eligibility: People aged 21 years or older who need to have a heart procedure. These procedures can include (1) electrophysiology mapping or ablation; and (2) conduction system pacing. Design: Researchers will review participants' medical records. No extra tests are needed. Participants will have their heart procedure as planned. The EDEN system will be linked to the special ECG used during the procedure. An extra electrode may be placed on the participant's body. Electrodes are small stickers attached to wires that go to the machine. The EDEN system will record and analyze electrical signals already being measured. It will not interfere with participants' care. No medical decisions well be made based on its data. No follow-up visits are needed for this study....

VINTAGE (Ventricular Intramyocardial Navigation for Tachycardia Ablation Guided by Electrograms) Using Commercial Off-The-Shelf (COTS) Catheters

Background: Ventricular arrhythmia is an abnormal pulse rhythm that starts in the lower part of the heart (ventricles). Treatment includes ablation; ablation uses heat to destroy small portions of the heart that are causing short circuits in the normal heartbeats. But ablation does not always work well because some parts of the heart are hard to reach with current tools. Researchers want to try a new method called VINTAGE (ventricular intramyocardial navigation for tachycardia ablation guided by electrograms). VINTAGE may be better able to treat portions of the heart that are harder to reach with standard techniques. Objective: To test VINTAGE in people with ventricular arrhythmia. Eligibility: People aged 21 years and older with ventricular arrhythmia that did not respond to standard treatment. Design: Participants will have baseline tests. They will have blood tests and tests of their heart function. They will have imaging scans. They will complete a health questionnaire. Participants will undergo the VINTAGE procedure. They will be either completely or partially asleep. Doctors will insert tubes through large blood vessels in the groin. Tubes may also be inserted through the chest and wrist. They will use x-rays and ultrasound to guide tubes and guidewires directly into the heart muscle to do the ablation. Participants will stay in the hospital 1 or more nights after the procedure. Participants will have 3 follow-up visits over 6 months. These visits are for standard care after heart ablation. They will include blood tests, imaging scans, and tests of heart function. Participants may also wear a device to monitor their heart rhythms at home.

Ventricular Arrhythmias in Acute Myocardial Infarction

Ventricular arrhythmias are a serious complication of myocardial infarction. The aim of this study is to provide reliable data on the management and mortality associated with ventricular arrhythmia in the setting of acute myocardial infarction.

Real-Time Intracardiac Echocardiography for Ventricular Arrhythmia Ablation

This study is investigating whether using ultrasound directly inside the heart during ablation of heart rhythm disorders in the ventricles can reduce radiation exposure for patients. During an ablation, catheters are guided through the heart to treat the abnormal electrical signals. Usually, X-ray imaging (fluoroscopy) is used to see where the catheters are, which exposes both patients and hospital staff to radiation. The study is randomized and controlled: half of the participants will have the ablation with ultrasound inside the heart, and the other half will have the standard ablation without ultrasound during the procedure. The main goal is to compare the amount of X-ray time used during the procedure. Secondary goals are to look at safety, effectiveness, and the total procedure time. Patients with premature ventricular contractions or ventricular tachycardia can take part. A total of 70 people will be included, 35 in each group. Using ultrasound inside the heart makes it possible to see the catheters and heart structures directly, so many steps can be done without X-rays. This could make ablations safer and reduce radiation exposure. The study is being carried out at Inselspital, Bern University Hospital, and at University Hospital Basel. All steps are standardized and data are collected carefully. The results will show whether ultrasound during ablations can significantly reduce radiation and make ablations more efficient and safer.

Arrhythmic Risk in Myocarditis Outcome Research

The goal of this observational, retrospective, multicenter study is to characterize the arrhythmic burden and identify predictive factors for ventricular arrhythmias (VAs) in adult patients hospitalized for acute myocarditis (AM). The main questions it aims to answer are: * What is the incidence of sustained ventricular arrhythmias during the index hospitalization in patients with acute myocarditis? * What clinical, biological, electrocardiographic, and imaging factors predict the occurrence of sustained ventricular arrhythmias during hospitalization and after discharge? Researchers will compare patients who developed sustained VAs during hospitalization to those who did not, in order to identify independent predictors of arrhythmic events and develop a validated risk stratification score. Participants' medical records from 2020 to 2024 will be reviewed to collect: * Baseline demographic, clinical, biological, electrocardiographic, and imaging data at admission * In-hospital management strategies and outcomes, including mortality, cardiogenic shock, and heart replacement therapy * Long-term follow-up data including VA recurrence, sudden cardiac death, and development of cardiomyopathy, with censoring applied on January 1, 2026

IVTCC 2.0: A Prospective Multicenter Ventricular Tachycardia Catheter Ablation Registry

This is a prospective multi-center international registry. The objective of this registry is to collect prospective data on patients undergoing catheter ablation for Ventricular Tachycardia (VT) and Premature Ventricular Contractions (PVC). The registry will be used for clinical monitoring, research, and quality improvement purposes.

Percutaneous Blockade of the Stellate Ganglion in Electrical Storm

There is no randomized clinical study in the literature that evaluated the efficacy and safety of the stellate ganglion infiltration procedure in patients with electrical storm. So far, case reports and retrospective studies suggest that such a strategy should be considered in cases refractory to initial therapy. In this scenario, the European and American guidelines for the treatment of ventricular arrhythmias recommend autonomic modulation in this setting, but only with a level of recommendation IIb (1,2). This project aims to evaluate the effect of stellate ganglion infiltration in patients with electric storm refractory to initial clinical measures. It is a randomized clinical trial where patients will receive treatment with a lidocaine and bupivacaine anesthetic solution or no intervention. The effect of the intervention will be considered positive when there is a reduction of arrhythmic events of at least 50% in the 12 hours immediately after.

Comparative Effectiveness of Carvedilol Versus Metoprolol Succinate in Heart Failure Patients With an Implantable Cardioverter Defibrillator

This prospective, multicenter, open-label, randomized comparative effectiveness trial, titled CARVTOP-ICD, evaluates the impact of carvedilol versus metoprolol succinate in patients with heart failure with reduced ejection fraction (HFrEF) and an implantable cardioverter defibrillator (ICD). The study will enroll 2,000 participants across 100 U.S. sites and includes an 18-month feasibility phase with 100 participants from 15 sites. Eligible participants must be currently treated with metoprolol succinate and willing to switch to carvedilol, with randomization in a 1:1 ratio. Participants will be followed for up to 3 years, with regular assessments including ICD interrogations, medication adherence, healthcare utilization, and quality of life surveys. The primary endpoint is the first occurrence of any ICD therapy (appropriate or inappropriate), cardiovascular (CV) hospitalization, or CV death. Secondary endpoints include ICD shock burden, healthcare utilization, and patient-reported quality of life. The trial aims to provide high-quality comparative data to address clinical equipoise surrounding the two commonly used beta-blockers in HFrEF management.

Enlighten Study: The EV-ICD Post Approval Registry

Medtronic is sponsoring Enlighten: The EV-ICD Post Approval Registry, to further confirm safety and effectiveness of EV-ICD in routine clinical practice, following commercial release of EV-ICD devices.

ElectroPhySiological Characterization Of the Arrhythmia Substrate for Sudden Cardiac Death PrEdiction

EP-SCOPE is a prospective, multicentric, non-randomized pilot study that aims to estimate the risk of life-threatening ventricular arrhythmia through use of advanced electrophysiological studies in patients with ischemic or non-ischemic cardiomyopathy with left ventricular ejection fraction (LVEF) \<50% and risk factors of ventricular arrhythmia, otherwise not considered for implantation of an implantable cardioverter defibrillator (ICD). The objective is to assess the effectiveness of a risk stratification strategy based on detailed electrophysiological exploration of the left ventricle and programmed ventricular stimulation.

Using Heart Electrical Signals to Study How Well Treatments Prevent Dangerous Heart Rhythms in Active People

The goal of this observational study is to learn if two specific heart electrical signal patterns can help in detecting the risk of dangerous heart rhythms in athletes, and to see if exercise-based tests can be used instead of invasive hospital procedures to record this electrical signals. The main questions it aims to answer are: 1. Can special ECG action potential duration markers (R2I2 and PERS) identify athletes who are at higher risk of sudden heart rhythm problems. 2. Can an exercise test give the same information as a non-invasive electrophysiology study. Researchers will compare athletes who have an implanted heart device (ICD) with athletes who do not, to see if there are differences in these heart signals. Participants will undergo: 1. ECG recordings during rest and exercise. 2. If they have an ICD or pacemaker, an ECG will be recorded during a non invasive stimulation. 3. A continuous 24 hour ECG.

Proton Radiosurgery for the Treatment of Malignant Ventricular Tachyarrhythmias

Ventricular arrhythmias (VAs) are the leading cause of sudden cardiac death (SCD) worldwide. The implantable defibrillator (ICD) increases survival in patients at risk of VA, with data of superiority to antiarrhythmic drugs. Nevertheless, the ICD cannot prevent VAs, and shocks delivered by the device (appropriate and inappropriate) negatively impact patients' quality of life. Transcatheter ablation (TCA) is the percutaneous therapy that can eliminate VAs and prevent any recurrence. TCA is the state of the art for the treatment of drug-unresponsive VAs in patients with structural heart disease, but the prevalence of recurrence remains high (between 30% and 60%). For these reasons, several reports have recently appeared in the literature proposing a new solution for the treatment of VAs in which the use of external-beam body radiotherapy with stereotactic-radiosurgical technique (SBRT) is described. SBRT represents a rapid, noninvasive approach based on the delivery of high radiation doses of photons (25 Gy in a single fraction) to a precise location in cardiac tissue. SBRT has entered the latest 2022 European Society of Cardiology (ESC) guidelines on VAs as a "bailout therapy". Based on preliminary data in the oncology setting, proton therapy could allow further optimization of compliance of these therapeutic doses by preserving even more of the healthy heart part and thus reducing the cardiopulmonary toxicity of radiotherapy outside the ablation target. The investigators therefore propose an experimental (prospective interventional) study to evaluate the toxicity (primary endpoint) and efficacy (secondary endpoint) of proton radiosurgery for the treatment of VA with an enrollment of 21 patients. The primary endpoint is to evaluate the toxicity of proton radiotherapy in the acute phase (during the first 30 days of the procedure) and at 3, 6 and 12 months. A crucial part of the protocol will be the proper definition of the target to be irradiated, which will require the integration of different non-invasive cardiac imaging methodologies such as CT (Computed Tomography), MRI (Magnetic Resonance Imaging) and PET (Positron Emission Tomography), coupled with invasive and/or "non-invasive" body surface mapping with multi-electrode electrocardiogram (ECG) so as to obtain a "cardiac image" in which the myocardial scar and the arrhythmogenic region are fused.

COR-INSIGHT: Optimizing Cardiovascular and Cardiopulmonary Outcomes with AI-Driven Multiplexed Indications Using COR ECG Wearable

The COR-INSIGHT trial aims to evaluate the effectiveness of Peerbridge COR advanced ambulatory ECG wearables (COR 1.0 and COR 2.0) in accurately and non-invasively detecting cardiovascular and cardiopulmonary conditions using AI-based software (CardioMIND and CardioQSync). The study devices offer non-invasive, multiplexed, AI-enabled direct-from-ECG detection as a novel alternative to traditional diagnostic methods, including imaging, hemodynamic monitoring systems, catheter-based devices, and biochemical assays. Continuous COR ECG data collected in hospital, outpatient clinic, or home settings will be analyzed to evaluate the predictive accuracy, sensitivity, specificity, and performance of these devices in differentiating between screen-positive and screen-negative subjects. The panel of screened indications encompasses a broad spectrum of clinically relevant cardiovascular, cardiopulmonary, and sleep-related diagnostic parameters, which are critical for advanced patient assessment and management. In the cardiovascular domain, the protocol emphasizes the detection and classification of heart failure, assessment of ejection fraction severity, and identification of myocardial infarction, including pathological Q-waves and STEMI. It further addresses diagnostic markers for arrhythmogenic conditions such as QT interval prolongation, T-wave alternans, and ventricular tachycardia, as well as insights into ischemia, atrial enlargement, ventricular activation time, and heart rate turbulence. Additional parameters, such as heart rate variability, pacing efficacy, electrolyte imbalances, and structural abnormalities, including left ventricular hypertrophy, contribute to comprehensive cardiovascular risk stratification. In the non-invasive cardiopulmonary context, the protocol incorporates metrics like respiratory sinus arrhythmia, cardiac output, stroke volume, and stroke volume variability, providing critical insights into hemodynamic and autonomic function. The inclusion of direct-from-ECG metrics for sleep-related disorders, such as the apnea-hypopnea index, respiratory disturbance index, and oxygen saturation variability, underscores the protocol's utility in addressing the intersection of cardiopulmonary and sleep medicine. This multifaceted approach establishes a robust framework for precision diagnostics and holistic patient management. The COR 1.0 and COR 2.0 wearables provide multi-lead ECG recordings, with COR 2.0 offering extended capabilities for cardiopulmonary metrics and longer battery life (up to 14 days). COR 2.0 supports tri-modal operations: (i) Extended Holter Mode: Outputs Leads II and III, mirroring the functionality of COR 1.0 for broader ECG monitoring applications. (ii) Cardiopulmonary Mode: Adds real-time recording of Lead I, V2, respiratory impedance, and triaxial accelerometer outputs, providing advanced cardiopulmonary insights. (iii) Real-Time Streaming Mode: Streams data directly to mobile devices or computers via Bluetooth Low Energy (BLE), enabling real-time waveform rendering and analysis. The COR 2.0 units are experimental and not yet FDA-cleared. Primary endpoints include sensitivity (true positive rate) \> 80%, specificity (true negative rate) \> 90%, and statistical agreement with reference devices for cardiovascular, cardiopulmonary, and sleep metrics. Secondary endpoints focus on predictive values (PPV and NPV) and overall diagnostic performance. The study employs eight distinct sub-protocols (A through H) to address a variety of cardiovascular, cardiopulmonary, and sleep-related diagnostic goals. These sub-protocols are tailored to specific clinical endpoints, varying in duration (30 minutes to 14 days) and type of data collection. Up to 15,000 participants will be enrolled across multiple sub-protocols. Screening ensures eligibility, and subjects must provide informed consent before participation. Dropouts and non-compliant subjects will be excluded from final analyses.

Image-Based Prediction of Ventricular Tachycardia Events in Non-ischemic Cardiomyopathy

Risk stratification for sudden cardiac death (SCD) in patients with non-ischemic cardiomyopathy (NICM) remains suboptimal. Although current guidelines rely on severe left ventricular systolic dysfunction (left ventricular ejection fraction (LVEF) \< 35%) as key predictor of arrhythmic risk and clinical indication of prophylactic implantable cardioverter defibrillator (ICD), this approach seems inadequate, since registries report that only a minority of NICM ICD carriers experience an appropriate ICD shock during follow-up, whereas out-of-hospital cardiac arrests (OHCA) occur in patients with LVEF\>35% in up to 80% of cases. Moreover, pivotal primary prevention trials (DANISH trial, long-term outcome of the SCD-HeFT trial) failed to demonstrate a net mortality benefit of ICD in patients with NICM. As for most structural heart diseases (SHD), scar-related reentry has been addressed as the pathophysiological mechanism of ventricular arrhythmias (VAs) in patients with NICM, with fibrotic tissue being the substrate of this reentry. Late gadolinium enhancement cardiac magnetic resonance (LGE-CMR) is the gold standard for the non-invasive visualization and characterization of the myocardial fibrosis and according to retrospective studies is detected in nearly 30% of patients with NICM. In latest years, several studies and subsequent metanalyses have explored the correlation between CMR-detected LGE and occurrence of VAs, showing that presence, extent, location (septal vs lateral) and patten (focal vs multifocal vs ring-like) of non-ischemic fibrosis help in stratifying arrhythmic risk. Nonetheless, scar heterogeneity (that is, inherent composition of dense scars vs border zone (BZ), presence of strands of viable myocardium within the scar) has been indicated as a potential novel predictor of VAs. In a recent prospective multicenter registry on patients with class I indication for cardiac resynchronization therapy (CRT) (\>60% with NICM), not only scar mass, but even border zone (BZ) mass and presence of BZ channels were identified as independent predictors for VT occurrence in NICM patients. This BZ mass and BZ channels can be automatically identified using a commercially available, post-processing imaging platform named ADAS 3D LV (ADAS3D Medical SL, Barcelona, Spain), with FDA 510(k) Clearance and CE Mark approval. Thus, CMR-derived BZ mass might be used as an automatically reproducible criterium to reclassify those patients with NICM at highest risk for developing VAs/SCD in a relatively short period of at least 2 years. In the present cohort study, the investigators sought to: i) evaluate the usefulness of CMR-derived BZ mass measurement and identification of heterogeneous tissue channels (HTC) (among other scar characteristics derived from image post-processing) to predict the occurrence of VT events in an international, retrospective, multicenter, unselected series of patients with NICM without previous arrhythmia evidence (main study); ii) subsequently validate these predictors of VT occurrence in a prospectively-collected multicenter cohort study (substudy 1); iii) retrospectively evaluate in the subset of patients with \> 1 LGE-CMR performed as part of standard clinical practice if any change in BZ mass and HTC presence occurs over time and if this correlates with occurrence of VAs (substudy 2).

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

Role of Endomyocardial Biopsy and Aetiology-based Treatment in Pediatric Patients with Inflammatory Heart Disease in Arrhythmic and Non-arrhythmic Clinical Presentations: an Integrated Approach for the Optimal Diagnostic and Therapeutic Management (MYOPED)

Myocarditis is a complex inflammatory disease, usually occurring secondary to viral infections, autoimmune processes or toxic agents. Clinical presentations are multiple, including chest-pain, heart failure and a broad spectrum of arrhythmias. In turn, outcome is largely unpredictable, ranging from mild self-limiting disease, to chronic stage and progressive evolution towards dilated cardiomyopathy, to rapid adverse outcome in fulminant forms. Subsequently, myocarditis is often underdiagnosed and undertreated, and optimal diagnostic and therapeutic strategies are still to be defined. This study, both retrospective and prospective, originally single-center and subsequently upgraded to multicenter, aims at answering multiple questions about myocarditis, with special attention to its arrhythmic manifestations. Optimal diagnostic workflow is still to be defined. In fact, although endomyocardial biopsy (EMB) is still the diagnostic gold standard, especially for aetiology identification, it is an invasive technique. Furthermore, it may lack sensitivity because of sampling errors. By converse, modern imaging techniques - cardiac magnetic resonance (CMR) in particular - have been proposed as alternative or complementary diagnostic tool in inflammatory heart disease. Other noninvasive diagnostic techniques, like delayed-enhanced CT (DECT) scan or position emission tomography (PET) scan, are under investigation. Biomarkers to identify myocarditis aetiology, predisposition, prognosis and response to treatment are still to be defined. Arrhythmic myocarditis is largely underdiagnosed and uninvestigated. Importantly, myocarditis presenting with arrhythmias requires specific diagnostic, prognostic and therapeutic considerations. At the group leader hospital, which is an international referral center for ventricular arrhythmias management and ablation, a relevant number of patients with unexplained arrhythmias had myocarditis as underlying aetiology. The experience of a dedicated third-level center is going to be shared with other centers, to considerably improve knowledge and management of arrhythmic myocarditis. The role of CMR, as well as alternative noninvasive imaging techniques, in defining myocarditis healing is a relevant issue. In particular, optimal timing for follow-up diagnostic reassessment is still to be defined, in patients with myocarditis at different inflammatory stages, either with or without aetiology-dependent treatment. Uniformly-designed studies are lacking, to compare myocarditis among different patient subgroups, differing by variables like: clinical presentations, myocarditis stage, associated cardiac or extra-cardiac diseases, aetiology-based treatment, associated arrhythmic manifestations, diagnostic workup, and devices or ablation treatment.

Implantable Cardioverter Defibrillator (ICD Registry)

The ICD Registry™ is a nationwide quality program that helps participating hospitals measure and improve care for patients receiving implantable cardioverter defibrillators (ICDs) and cardiac resynchronization therapy devices with defibrillator (CRT-Ds). The ICD Registry captures the characteristics, treatments, and outcomes of patients receiving (ICDs). Patient-level data is submitted by participating hospitals on a quarterly basis to the American College of Cardiology Foundation's (ACCF) National Cardiovascular Data Registry (NCDR) which then produces an Outcomes Report of the hospital's data, with comparison to both a volume peer group (number of ICD patients submitted annually) and the entire ICD registry data set.