View clinical trials related to Atrial Fibrillation.
Filter by:The problem addressed in this proposal is related to the success rate in treating one of the most common arrhythmias in the Western population, atrial fibrillation (AF). Specifically, the success rate is particularly low in persistent atrial fibrillation, being up to 40% lower than the success rate for paroxysmal atrial fibrillation. Atrial fibrillation is associated with increased mortality and morbidity (stroke, heart failure, dementia, etc.). The most effective treatment is electrical isolation of the pulmonary veins (PVI) by catheter ablation using radiofrequency or cryoablation of the atrial myocardial tissue. This ablation allows the elimination of the main initiators of the arrhythmia but may not address its maintainers, which play a significant role in persistent atrial fibrillation. This project proposes a new approach in studying the atrial myocardial substrate for persistent fibrillation ablation. Until now, maintainers of the arrhythmia have been sought by conducting studies during atrial fibrillation. In this project, we will use short-coupled stimulation techniques during sinus rhythm and analyze the response of the atrial myocardium, attempting to unmask areas where the impulse propagates abnormally/slowly. These areas of the atrial muscle with hidden slow conduction (HSC) could generate short circuits that maintain atrial fibrillation. It would be expected that these areas would show fragmented electrograms in response to rapid electrical stimuli not visible in basal rhythm. The study is divided into two sub-studies to be carried out over the 3-year project. 1. This study aims to test the feasibility of this new arrhythmic substrate characterization strategy, as well as observe differences between patients with paroxysmal and persistent AF and compare it with conventional fragmented electrogram analysis during AF. 2. The second sub-study will apply the knowledge acquired during the first phase regarding the characterization of electrograms-HSC, allowing for radiofrequency ablation procedures to be performed using a new substrate ablation technique consisting of the elimination of these electrograms and comparing the results with those patients who undergo conventional pulmonary vein ablation techniques. The ultimate goal, from a global point of view, is to demonstrate that it is possible to improve the results of arrhythmia treatment by identifying and eliminating these electrograms-HSC.
The MEA cardiology societies have joined forces to tackle the issue by establishing a tangible real-world data registry in every MEA country. This endeavor has resulted in the development of a multicenter registry called MEA-WCVD, which is being sponsored by each national cardiology society from participating countries. All data gathered will be consolidated into a singular registry for thorough analysis. Country specific analysis will be performed.
The primary purpose of this study was to investigate whether remimazolam administration for sedation had a positive effect on patients' satisfaction compared to dexmedetomidine administration in patients with atrial fibrillation undergoing catheter ablation. Atrial fibrillation is a common arrhythmia in clinical practice. Catheter ablation can be used when the cause of atrial fibrillation is in the pulmonary veins. However, the procedure takes 2 to 4 hours, and patients complain of considerable discomfort. Remimazolam has the advantage of having no drug interaction with CYP3A4 and shorter elimination half-life, duration of action, and shorter recovery time than midazolam, a previously used drug. In addition, compared to dexmedetomidine, side effects such as bradycardia and hypotension are expected to be less. In addition, even if unexpected deep sedation is induced, complete reversal using flumazenil is possible, so the risk of re-sedation could be low. In other words, when remimazolam is used instead of a drug previously used as a sedative in atrial fibrillation patients undergoing catheter ablation, effects such as rapid action and recovery, reduced complications, improved safety, and improved patient satisfaction can be expected. Therefore, this study was designed to confirm the hypothesis that administration of remimazolam would improve satisfaction in patients undergoing catheter ablation compared to dexmedetomidine.
Our study will include consecutive patients undergoing pulsed field ablation (PFA) or cryoballoon (CBA) ablation. Tissue injury and inflammation markers will be measured before and after the procedure.
Atrial fibrillation (AF) is a common heart rhythm disorder in the intensive care unit (ICU). It can be precipitated by multiple factors but it is unclear whether AF persists after discharge from the ICU, and long term. This study will investigate whether AF recurs up to one year after ICU discharge.
The goal of the study is to compare efficacy and safety of the pulmonary artery denervation procedure combined with atrial fibrillation ablation versus atrial fibrillation ablation alone in patients with paroxysmal and persistent atrial fibrillation and group 2 of the pulmonary hypertension
The MAESTRIA study is an international, multi-centre, non-interventional, observational registry. The main goal is to enrol a representative group of European patients diagnosed with Atrial Fibrillation (AF) to analyse clinical and relevant parameters (digitalised ECG, echocardiograms, cardiac CTs, MRIs and blood biomarkers) that could be used during clinical practise for the diagnosis of atrial cardiomyopathy. The AF patients will be distributed in 3 groups according to the different manifestation of AF: paroxysmal, persistent and permanent AF.
The goal of this clinical trial is to evaluate the initial safety and effectiveness of an investigational medical device. Electrode catheter ablation of the Marshall vein is performed using TIRA, a clinical trial medical device for patients with persistent atrial fibrillation,
The goal of this randomized, double-blinded, controlled clinical trial is to investigate if treatment with an sodium-glucose cotransporter-2 inhibitor (SGLT2) during the unique time window before coronary artery bypass surgery (CABG), can reduce the incidence of post-operative atrial fibrillation and/or acute kidney injury in patients with chronic coronary syndrome. The main questions it aims to answer are: - Does treatment with an SGLT2 inhibitor during the waiting time and stable post-operative period, in patients with chronic coronary syndrome scheduled for CABG, reduce the risk of new onset atrial fibrillation compared to placebo? - Does treatment with an SGLT2 inhibitor during the waiting time and stable post-operative period, in patients with chronic coronary syndrome scheduled for CABG, reduce the risk of acute kidney injury before hospital discharge compared to placebo? Participants will be administered dapagliflozin 10 mg once daily or placebo for a minimum of seven days while awaiting scheduled CABG and up until discharge, with a short interruption for surgery. The active arm will be compared to the placebo arm to see if dapagliflozin can reduce the incidence of post-operative atrial fibrillation and/or acute kidney injury.
Atrial Fibrillation (AFib) is the most common cardiac arrhythmia, causing the loss of the normal and coordinated atrial contractility. Several studies have demonstrated the existence of some atrial anatomical sites involved in the initiation and maintenance of this arrhythmia, first of all the posterior wall in the area around the outlet of the pulmonary veins. In fact, the existence of a complex of structural and functional modifications has been documented, collectively defined as "structural remodeling" which involve both the cardiomyocyte and the interstitium (the space between the cardiomyocytes) from a histopathological point of view; at the cardiomyocyte level, a loss of sarcomeres in the perinuclear site (myocytolysis), a reduction in the expression of "adult" cellular proteins (e.g. cardiotin and titin) with concomitant re-expression of "fetal" proteins (e.g. muscle actin smooth), as well as a modification of the mitochondrial structure. At the interstitial level, remodeling is characterized by the deposition of fibrous tissue in the interstitium between the muscle bundles and by a reduction in capillary density. Regarding the deposition of collagen fibers, some studies on an experimental model of AFib have shown that the latter is not reversible. Autophagy is an intracellular process regulated by numerous biochemical signals; it is present at basal levels in most tissues and allows the physiological turnover of the various structural components of the cell, directing them to lysosomal degradation. It can also be stimulated by external signals in unfavorable environmental conditions, such as in the case of pathologies that determine a condition of tissue oxidative stress protracted over time. Experimentally, an excessive activation of the latter has been associated with the early stages of pathological cardiac remodeling in various animal models of cardiovascular diseases and some recent studies have hypothesized that altered levels of autophagy may contribute to the possible mechanisms involved in the generation and maintenance of the remodeling cardiomyocyte and interstitial structure in AFib. The levels of autophagic activity can be evaluated by studying specific markers - such as the Beclin-1 and LC3B proteins - constituents of the autophagic signaling cascade. In the case of LC3B, the "LC3BII/LC3BI" ratio (the processed form of autophagosomal vesicles and the unprocessed form constitutively present at the cytoplasmic level) was used as an autophagy biomarker. Furthermore, some microRNAs (miRNAs) capable of controlling the expression of proteins of the autophagic cascade have been described in the literature. This is the case of miRNA 30a and miRNA 204, respectively, which respectively inhibit the expression of Beclin-1 and of LC3B. This study aims to investigate from a histo-morphological and molecular point of view the presence of alterations of autophagy mechanisms in patients with persistent or permanent AFib and which correlate these modifications with the degree of structural remodeling present at the level of the left atrial myocardium.