View clinical trials related to Ventricular Arrhythmias.
Filter by:The objective of this study is to determine if there is a meaningful benefit to using the sedative medication dexmedetomidine in the acute treatment of patients with recurrent ventricular arrhythmias, known as electrical storm. This will be a multi-centre, double-blinded, placebo-controlled, randomized trial. Patients with electrical storm will be randomized to receive 48 to 72 hours of dexmedetomidine or placebo as part of their initial treatment in an intensive care unit.
Cardiac electrical activity is detected on the body surface with conventional electrocardiography involving 12 leads (ECG 12). A limitation of the current ECG technique is that recordings are obtained from only 6 independent precordial leads pairs ; which may miss cardiac potentials from spatially limited regions. More extensive sampling of the body surface may contribute to additional clinical information. The present study investigates the additional sensitivity of ECG using 128 body surface leads (High Density (HD) ECG) in measuring global or regional cardiac activity.
This study will test whether spironolactone, an approved drug for among other things hypertension, will reduce the risk of severe arrhythmias in patients with implanted defibrillators. Half the patients in the study will get spironolactone and half will get a placebo. Neither the patients or their providers will know if they are getting spironolactone or placebo.
This research is being done to determine how well cardiac computed tomography (CT) scanning measures of fat within the heart can predict abnormal heart rhythms and how well cardiac CT can measure scar within the heart versus cardiac magnetic resonance imaging (MRI). - People who have been enrolled in PROSe-ICD (NA_00045142) and Reynolds (NA_00037404) studies may join - The procedures, tests, drugs or devices that are part of this research and will be paid for by the study
The purpose of this study is to identify markers of increased risk for incident ventricular arrhythmias and cardiovascular events in patients already being treated with an implantable cardioverter-defibrillator (ICD) by exploring patient history and clinical findings, biological markers, ECG markers, and echocardiographic markers.
The main purpose of this clinical study is to collect electrograms from an investigational lead placed in an extravascular space, for development of a future Implantable Cardioverter Defibrillator (ICD) system.
The investigators study aimed to observe the occurrence of new premature ventricular complexes and other ventricular arrhythmias after pulmonary vein isolation.
MIGAT will develop and transfer software tools to assist ablation therapy of cardiac arrhythmias. The scientific background and objectives of MIGAT differ between atrial and ventricular arrhythmias, because the knowledge on structure-function relationships and the definition of ablation targets are different. Hypothesis: The combination of body surface mapping and imaging will enable a comprehensive non-invasive assessment of cardiac arrhythmia mechanisms and localization, myocardial structural substrate, and cardiac anatomy, all of which should be of value to better define targets for ablation therapy. No software solution is currently available for multimodal data processing, fusion, and integration in 3-dimensional mapping systems to assist ablation. Because such a development requires a trans-disciplinary approach (cardiac electrophysiology, imaging, computer sciences), it is likely to emerge from an academic initiative. Objectives: MIGAT will gather resources from the Liryc Institute (L'Institut de Rythmologie et Modélisation Cardiaque), the Inria (Institut National de Recherche en Informatique et en Automatique) and the University Hospital of Bordeaux to develop a computer-based solution with high expected impact on the daily management of cardiac electrical disorders. The research program will benefit from the MUSIC (Magnetom Avanto, Siemens, Erlangen, Germany) equipment recently funded as part of the "Investissement d'Avenir" program, and combining state-of-the-art electrophysiology and magnetic resonance imaging technology. MIGAT will involve software engineers, computer science researchers, cardiologists, radiologists and clinical research personnel with the following objectives: - Development of a multimodal data processing software to assist cardiac ablation - Optimization and Validation of the software in terms of user experience - Optimization and Validation of the software in terms of clinical performance - Optimization of software quality compatible with subsequent device certification and randomized-controlled evaluation
The proposed study is designed to characterize defibrillation efficacy in humans for the potential development of a new extravascular implantable cardioverter defibrillator (ICD) system.
The primary objective of this study is to compare the composite outcome of total mortality and operative complications in patients who do not undergo defibrillation testing to those who do undergo defibrillation testing at the time of initial ICD implantation.