A Study to Determine if Identification of Undiagnosed Atrial Fibrillation in People at Least 70...
Atrial FibrillationAtrial FlutterThe purpose of this study is to determine if an AF detection intervention in men and women at least 70 years of age with undiagnosed atrial fibrillation (AF) or atrial flutter (AFL) reduces the person-years incidence rate of stroke compared to usual care (no AF detection intervention).
Comparison of ATI-5923, a Novel Vitamin K Antagonist, With Warfarin in Patients Requiring Chronic...
Atrial FibrillationAtrial Flutter3 moreThe purpose of this research study is to test an experimental drug ATI-5923 vs Coumadin. The study is intended to demonstrate ATI-5923 is superior to Coumadin for keeping INR values in the desired therapeutic range. Patients who require chronic anticoagulation with one or more of the following conditions are eligible for the study: atrial fibrillation or atrial flutter, prosthetic heart valve, venous thromboembolic disease, or history of myocardial infarction or cardiomyopathy will be enrolled.
Maximum Targeted Ablation of Atrial Flutter
Atrial FlutterPatients undergoing atrial flutter ablation will be randomized to either the standard ablation approach or voltage targeted approach. Patients will be followed for one year to assess outcome of the ablation technique
Routine Mini-invasive Electrophysiology Study for Patients Feeling Tachycardia, With a Negative...
Pre-excitation SyndromesParoxysmal Tachycardia3 morePatients complaining of tachycardia but with a negative Holter ECG, are for a limited time period offered a simplified electrophysiological(EP) examination. By a full electrophysiological study(EP study)electrodes are introduced for pacing and sensing i all four heart chambers. Where as by the mini invasive EP study only one electrode is introduced to the right atrium. The simplified procedure represent a smaller risk of complications, requires less resources but should yield the same diagnoses in more than 90% of the cases. The study is a feasibility study to see if the procedure can discover arrythmias in a fairly unselected patient population.
Markers of Oxidative Stress Present in Blood in Patients With Atrial Fibrillation
Atrial FibrillationInflammation1 moreAtrial fibrillation is an abnormal heart beat that starts in the upper parts of the heart and can cause stroke or death, if untreated. In general, treatments are not very effective, with frequent relapses of the abnormal heart beats. One explanation for the high relapse rate is that the treatments might not address the underlying cause of atrial fibrillation. Recently, the investigators have found that atrial fibrillation is associated with increased oxidative stress. This is a condition where abnormal oxygen forms are produced. These forms harm the cells of the heart, causing them to beat abnormally. The investigators have found increased oxidative stress in pig and mouse models of atrial fibrillation. They would like to see if oxidative stress is present in humans with atrial fibrillation. In this study, they will compare blood markers of oxidative stress between patients with and without atrial fibrillation. It is the expectation that participants with atrial fibrillation will have more abnormal blood markers of atrial fibrillation. This study requires participants to visit their doctors, undergo a history and physical examination, and give blood only once.
Hypnosis in Interventional Electrophysiology
FlutterAtrial1 moreHypnosis has already shown to decrease pain and anxiety in different surgical specialities. Nevertheless, its input has never been studied in cardiology. This research is a prospective, monocentric, controlled and randomized study. Patients over 18 years old and hospitalized for atrial flutter ablation may be included and randomized into one of the arms: placebo or hypnosis. Global pain will be assessed by a visual analogue pain scale. Anxiety, morphine consumption, and patient sedation will also be assessed. The aim of this study is to improve the care given to patient undergoing atrial flutter ablation.
Comparison of Intracardiac Echocardiography and Transesophageal Echocardiography
Atrial FibrillationAtrial FlutterThe presence of intracardiac thrombi and their propensity for systemic embolism is a major concern in patients with atrial fibrillation (AF) and atrial flutter (AFL) undergoing cardioversion and ablation procedures. Transesophageal echocardiography (TEE) is the clinical gold standard imaging modality for visualization of the right atrial appendage (RAA) and left atrial appendage (LAA) for detection of thrombi as well as risk factors associated with thrombus formation, including spontaneous echo contrast and low LAA velocity. However, TEE is a moderately invasive procedure that incurs additional risk, cost, and patient discomfort. In addition, thrombus detection via TEE may be ambiguous, and another tool capable of confirming uncertain TEE findings is desirable. This is particularly crucial in cases when adequate LAA imaging cannot be acquired or if TEE is clinically contraindicated, requiring alternative imaging modalities that can visualize these structures. Phased-array intracardiac echocardiography (ICE) provides high-imaging resolution and is routinely used during atrial fibrillation (AF) ablation procedures for transseptal puncture and periprocedural catheter visualization. A majority of imaging acquired during AF ablation is performed with the ICE catheter in the right atrium (RA). However, these standard views are often unable to provide sufficient visualization of the LAA structure due to the relatively long distance between the ICE catheter and LAA. Placement of the ICE catheter in the pulmonary artery (PA) provides improved visualization of the LAA over other locations by reducing the anatomic distance between the imaging catheter and structure of interest. Recent retrospective studies have confirmed improved assessment of the LAA with ICE imaging from the PA and equivocal sensitivity and specificity when compared with TEE for evaluation of LAA thrombus. However, these studies did not systematically evaluate the presence of SEC, flow velocity, the LAA dimensions, or the RAA. Although these studies support the use of ICE imaging from the PA to clarify or confirm TEE findings, a prospective and blinded study evaluating both the LAA and RAA in its entirety is required. We hypothesize that this prospective and blinded study will confirm ICE as non-inferior to TEE in the assessment of LAA and RAA structure and for the detection of thrombi.
Sodium Channel Splicing in Heart Failure Trial
Atrial FibrillationAtrial Flutter1 moreThe purpose of this research is to see if investigators can detect truncated mRNA splice variants of the cardiac voltage-gated sodium (Na+) channel gene, SCN5A, in patients with a weak heart (Heart Failure) with or without an implantable cardioverter-defibrillator (ICD) and compare them to patients with a normal heart. Hypothesis: Patients with reduced left ventricular ejection fraction have increased abundances truncated mRNA splice variants of the SCN5A gene, which portends to sodium channel dysfunction and an increased risk for sudden cardiac death. Patients with implantable cardioverter-defibrillator devices (ICDs) who have experienced shock therapy have increased abundances of truncated mRNA splice variants of the SCN5A gene compared to similar congestive heart failure patients who have not experienced shock therapy.
Impact of an Atrial Fibrillation Decision Support Tool (AFDST) on Thromboprophylaxis for Atrial...
Atrial FibrillationAtrial FlutterStudy objective was to improve decision-making and thromboprophylaxis for patients with Atrial Fibrillation (AF) by developing and implementing a computerized decision support tool for individual patient-level decision-making about oral anticoagulant therapy. To accomplish these goals, the investigators studied the incremental impact of adding a quality-improvement (QI) intervention to an educational package (for practice staff and clinicians) using a computerized aid, the Atrial Fibrillation Decision Support Tool (AFDST) for individual patient-level decision-making about oral anticoagulant therapy in patients with non-valvular AF. The decision support tool incorporates individual patients' risk factor profiles for ischemic stroke and bleeding and provides a recommendation for treatment based upon the projected quality-adjusted life expectancy gained or lost with the addition of either oral anticoagulant therapy or aspirin compared with no thromboprophylaxis.
RF Lesion Monitoring With 8mm IntellaTip MiFi XP
Atrial FlutterArrhythmiaAbnormal heart rhythms or arrhythmias are often managed by a procedure in which a catheter is introduced into the heart. These catheters can then cauterize abnormally functioning portions of the heart muscle with the hope of returning the heart to a more effective rhythm. In the process of performing such a procedure, called a catheter ablation, an operator must be able to accurately sense electrical activity displayed on computer screens in different parts of the heart, provide sufficient localized energy to the abnormally behaving tissue (ideally without damaging uninvolved heart structures), and accurately reassess the electrical activity of the heart to ensure the spot in the heart has been cauterized. When sensing electrical activity of the heart, specialized catheters produce recordings on a computer screen known as electrograms (EGM). To produce this recording conventional catheters commonly use a positive and negative electrode, from which the difference between the two provides the EGM. The distance between the two electrodes varies from device to device. The greater the distance between them, the less accurate the measurement of local electrical activity becomes. This may result in poorly localized or excessive use of energy that could be damaging to normal heart structures or put the patient at risk for the return or development of additional arrhythmias. The IntellaTip MiFi catheter has been constructed with a specialized sensing tip that uses "microelectrodes" that are relatively close in proximity (<1 mm apart) with the hope of improving the sensing capability of the device. This study will analyze the signals obtained from this FDA-approved catheter in people undergoing a catheter ablation procedure. The study will examine signals after the procedure is finished and will not prolong or differ the process from a standard ablation procedure. The goal of this study is to determine the ability of the microelectrodes to distinguish ablated, or cauterized versus non-cauterized tissue.