View clinical trials related to Ventricular Arrhythmias.
Filter by: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.
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
Implantable cardioverter-defibrillator (ICD) therapy reduces mortality in patients with chronic heart failure and reduced left ventricular ejection fraction (LVEF) <36%. Nevertheless, patient selection for ICD therapy based on LVEF and NYHA functional class alone seems to have a low specificity and sensitivity: In 100 patients treated, the SCD-HeFT study prevented 7 deaths in 5 years. Therefore 93 patients have a risk of adverse effects, such as operation risk, infection, pneumothorax, lead dislocation, and inadequate icd therapy. On the other hand, patients with advanced or end stage heart failure might rather die off progressive heart failure death and thus not benefit from ICD therapy. It therefore seems appropriate and necessary to improve the individualized risk stratification in these patients. The aim of this study is to evaluate multiple cardiac biomarkers in a model predicting ventricular arrhythmias in patients on ICD therapy.
This is an observational study to learn which patients benefit from CRT therapy and to track the clinical changes that help identify the risk-level of CRT patients.
People who have a dangerously fast heart beat, or whose heart is at risk of stopping beating, may be in need of an electronic device called an implantable cardioverter defibrillator (ICD). An ICD is implanted surgically just under the skin in the upper chest area and it sends a strong electrical impulse, or shock, to the heart to return it to a normal rhythm. The purpose of this study was to evaluate the safety and efficacy of the EnTrust ICD device. A feature of this device allows it to send small, painless electrical impulses (Anti-tachycardia pacing or ATP) to the heart instead of shocking it out of a rhythm that is too fast. Stopping a dangerous heart rhythm this way does not cause any pain whereas a shock to the heart can feel like a punch in the chest. This device also allows the heart to beat on its own when it can and helping it (by pacing, or sending it electrical signals) when it needs help. This feature is important because previously studies have shown that pacing the heart too often can increase the risk for heart failure or for atrial fibrillation (having too rapid of heart beats in the atrium). This study is now complete and the device has since been approved by the FDA.
The overall purpose of this study is to test the effects of a nurse managed psychoeducational intervention, consisting of symptom management training (SMT) and cognitive-behavioral intervention (CBI), during the first year after ICD implantation using a 3 group randomized clinical trial.