View clinical trials related to Atrial Fibrillation.
Filter by:Atrial fibrillation (AF) is reaching epidemic proportions in the aging U.S. and European populations, but the mechanisms of increased susceptibility to atrial fibrillation are still unknown. In this study, we look to further examine genetic and medical co-morbidity influence of atrial fibrillation duration and response to medications. In Specific Aim 1, we propose the creation of a Veterans Affairs AF Biorepository (VAAFBio), which is a resource that will collect and store clinical, demographic, blood and DNA samples from patients with atrial fibrillation to aide this study and future studies of this type in the VA population. In Specific Aim 2, examine common genetic polymorphisms in veteran patients with atrial fibrillation and examine gene-environment interactions with risk factors for atrial fibrillation.
Vitamin K antagonists (VKAs) are used to reduce the risk of stroke (cerebral vascular dysfunction) in AF patients. However, VKAs interact with drugs/food and the drug level is influenced by worsening of renal function, liver congestion or hemodynamic alterations in acute decompensated heart failure (ADHF). New oral anticoagulants (rivaroxaban, apixaban, dabigatran) are alternatives to VKA, such as warfarin. In post hoc analysis of ROCKET AF trial, 63.7% patients had HF and treatment-related outcomes were similar in patients with and without HF (Circulation HF. 2013; 6:740-7). So rivaroxaban 20 mg daily (or 15 mg daily in patients with creatinine clearance 30-49 mL/min) was safe in nonvalvular AF patients with HF. However, the clinical effect and safety of rivaroxaban were largely unknown in acute decompensated heart failure (ADHF) patients with atrial fibrillation (AF). ROAD HF-AF is the exploratory study to assess the change of surrogate markers (hsTn, d-dimer) when treated with rivaroxaban vs. warfarin and to strengthen the basis for future biomarker-based therapy in ADHF patients
The aim of this study to investigate the correlation between preoperative LA function using 2D echocardiography and left atrium 2D speckle tracking strain echocardiography and the development of Post Operative AF after CABG. the investigators chose electrocardiography as a reference standard for detection of Post Operative AF. LA dysfunction is diagnosed with Echocardiography
The goal of this research is to enhance anti-coagulant (AC) decision-making in older patients with atrial fibrillation using a geriatric assessment and identifying important factors that affect their use and important anticoagulant use outcomes (e.g., bleeding, time in therapeutic range).
Exosome plays an important role in the pathophysiology of the cardiovascular system. Since the field of cardiovascular exosome is still in its infancy, there are no available data regarding to its role in cardiac arrhythmias. The current study investigates the role of epicardial fat derived exosomes in patients who suffer from atrial fibrillation.
The purpose of the research is to identify the frequency and severity of adverse events related to atrial fibrillation that occur after discharge from hospital where the patient underwent cardiac surgery. The Specific Aims of the proposed study are to: 1. Identify the predictors of postoperative atrial fibrillation after discharge from hospital. 2. Identify the frequency of readmission to hospital, or other resource use such as Emergency Department or outpatient visit, for the treatment or prophylaxis of postoperative AF and consequent stroke or bleeding outcomes. 3. Identify the risks for stroke, death and other morbidity in patients after cardiac surgery and the effect of postoperative AF upon subsequent stroke or bleeding outcomes.
The study goal is to determine the clinical benefit of percutaneous catheter-based left atrial appendage (LAA) closure in patients with non-valvular atrial fibrillation (NVAF) at high risk of stroke (CHA2DS2-VASc Score ≥2) as well as high risk of bleeding as compared to best medical care (including a [non-vitamin K] oral anticoagulant [(N)OAC] when eligible).
Atrial fibrillation (AF) is a cardiac rhythm disorder particularly common in intensive care patients. Some meta-analyzes report a prevalence of new onset AF ranging from 4.5% to 29.5% in polyvalent intensive care. In our department, a recent month-long survey showed that more than 30% of the patients who were unhealthy on admission suffer from an episode of new onset AF during their stay. The occurrence of AF in intensive care has a pejorative effect on the patient's outcome, and this through two factors. On the one hand, the decreasing of cardiac output by degradation of the ventricular filling in diastole time, on the other hand the FA is responsible for an over-risk of ischemic stroke. In fact, it has been shown that the occurrence of new onset AF in intensive care is associated with a higher level of severity and a higher mortality. It is also important to underline the medico-economic impact of this rhythmic disorder as complication of shock due to the frequent prescription of various anti-arrhythmic or anticoagulant medication. Various factors have been mentioned to explain the frequent occurrence of AF in shocked patients. The shock state, whatever its origin, is characterized by the occurrence of a systemic inflammatory response syndrome in which is observed a particularly important releasing of stress hormones and endogenous catecholamines involved in the occurrence of a rapid multi-organ failure without treatment. Systemic humoral elements are possibly involved in the occurrence of new onset AF, such as high level of inflammation that characterizes shock states. In addition, physiological factors such as hypoxia, hypovolemia, hyperthermia or ionic disorders are also implicated, but their non-systemic association with intensive care new onset FA suggests that humoral factors may play an important and independent role. Among these humoral factors, the proteins of chromogranin family particularly Vasostatin-I (VS-I) seem possibly involved in the genesis of AF in the aggressed intensive care patients. Several studies have highlighted the beneficial regulatory role of VS-I on the cardiovascular system, particularly in a study on a canine model Stavrakis and al. have shown the VS-I protective role on the FA occurrence. However, as has been demonstrated in a prospective study in intensive care, the rates of circulating VS-I were significantly higher in the most severe patients and those whose prognosis was the most pejorative, thus not supporting the thesis of the protective effect of VS-I. An explanation exists for this discrepancy: VS-I is present in two distinct forms in the circulating blood. In vitro work carried out within the U1121 INSERM team with has made it possible to highlight the coexistence of two forms of VS-1: an aggregated "inactive" form and an "active" disaggregated form. In our hypothesis, the inactive aggregated form would be predominant during the states of acute pathological aggressions such as the shock and thus would not exert the anti arrhythmic and cardio protector expected functions. The first aim of our study is therefore to confirm that the onset of new onset FA during the shock state is associated with a significant decrease in the VS-I plasma level in its monomeric form called "active", even when high levels of total VS-1 are detected by ELISA in the plasma of patients. Our project is a pilot and unpublished translational work. The link between VS-I and new onset AF in intensive care severe patients has never been studied in vivo, and the recent work of the associated INSERM team provides advances in understanding the function of VS-I over time shock conditions. Nevertheless, our experimental hypothesis require confirmation in humans. A better understanding of the factors influencing the occurrence of cardiac arrhythmias in intensive care patients is a major ambition as it would be a step forward in the development of a preventive strategy or new treatment for the benefit of patients.
The primary objective of this investigation is to compare the efficacy of two different AF ablation strategies in patients with non-paroxysmal AF: CPVI plus electrophysiologic substrate ablation in the left atrium during sinus rhythm (STABLE-SR) and CPVI alone.
SAFE-LAAC Trial has been designed to gather data on the most optimal strategy of antiplatelet therapy after transcatheter left atrial appendage occlusion with Amplatzer or WATCHMAN device