View clinical trials related to Persistent Atrial Fibrillation.
Filter by:Under current practice, patients with persistent atrial fibrillation, can be offered one of two types of ablation treatment. Both of these treatments are aimed at electrically isolating the 4 pulmonary veins (PVs) at the back of the heart which connect it to the lungs. These PVs have been identified to serve as the sites where the abnormal heart rhythm is generated. One of the treatments is called radiofrequency (RF) catheter ablation, where 'heat energy' is delivered through the tip of a catheter to make tiny burns (ablation lesions) around the outlines of the 4 PVs at their bases. The other treatment technique utilises a 'cold balloon' (Cryoenergy or cryoballoon ablation) to freeze the bases of the 4 PVs to achieve the electrical isolation. Sometimes the treated tissues develop reconnections that can lead to a recurrence of the abnormal heart rhythm, and thus the need for a repeat procedure. In this study, participants will receive a second treatment 2 months after the first one. During the second treatment, investigators will check to identify areas that have developed reconnections since the first treatment; these will be treated again. This will increase the chances of all participants having a complete treatment. In order to improve understanding of how best to treat this condition, investigators will also carry out some further measurements within the heart during the repeat procedure. During these measurements, investigators will check to see if treatment has succeeded in reducing the occurrence of an abnormal heart rhythm. In the group of participants in whom RF energy is used for the initial procedure, investigators will also treat the back wall of the heart, and repeat these measurements.
The primary purpose of this registry is to obtain real-world clinical experience of Paroxysmal (PAF) and Persistent (PsAF) Atrial Fibrillation ablation radiofrequency (RF) technologies. Data from the registry will be used to assess clinical outcomes, including procedural efficiency, safety, and long-term, effectiveness of catheter ablation with novel RF technologies in PAF and PsAF patients.
This is a prospective, single-center, study. A targeted number of 181patients with persistent AF will be included according to pre-defined criteria. The ablation procedure consists on the identification of the arrhythmic substrate using a novel integrated mapping technique. We hypothesize that such approach may potentially lead to a mechanisms-targeted ablation strategy of persistent AF.
Atrial fibrillation (AF) is one of the most common heart rhythm disorders and it is associated with a variety of symptoms leading to a considerable deterioration in quality of life. The Mental-AF trial is intended to inquire if an app-based mental training can reduce the occurrence of symptomatic AF episodes within the blanking period, i.e. the first three months after catheter ablation for AF.
Clinical study to evaluate the safety and efficacy of the Adagio AF Cryoablation System (iCLAS™) in the ablation treatment of symptomatic, persistent atrial fibrillation (PsAF). Data will be used to support a pre-market application (PMA)
Atrial fibrillation (AF) is the most common type of chronic heart rhythm disease worldwide, with significant associated co-morbidities. Although there have been advances in understanding the mechanisms of AF, the underlying cause of AF and factors which perpetuate it remain incompletely understood. This is particularly the case for persistent AF (persAF). Drug treatments for persAF have a role but can have undesirable side effects with relatively limited efficacy. Furthermore, current invasive therapies for persAF remain suboptimal, requiring significant resources, and with potentially serious complications for patients. Catheter ablation is an effective treatment for paroxysmal AF. For persistent AF (persAF), however, catheter ablation does not provide similar results. This is because there remains a poor understanding of the electrophysiological mechanisms driving persAF. Part of this study aims to further explore the specific locations that represent important substrates which would guide more effective catheter ablation. There have been several different ablation approaches explored in the past (see below), however, these did not improve the outcome post procedure compared with pulmonary vein isolation alone. A pilot study has already been carried out and I aim to expand this further with a larger cohort of patients (10-20) over 2 years. In this study the investigators want to explore whether stable high dominant frequency (HDF) sites (with a high organisation index) act as potential drivers of Atrial Fibrillation. Thus, targeting these sites may results in prolongation of the cycle length and thus possible termination of the arrhythmia.
The aim of this study is to quantify and characterize the outcomes of radiofrequency (RF) ablation after, and the utility of, electroanatomical mapping with the market-released HD mapping catheters Inquiry™ AFocusII™ Double Loop and Advisor™ HD Grid, Sensor Enabled™ with the EnSite Cardiac Mapping System and the EnSite Automap module in subjects with AF in the real-world environment of the Asian population.
The main aim of the research is to investigate whether patients undergoing pulmonary vein isolation with cryoablation for atrial fibrillation (AF) will have lower rates of AF recurrence than those treated by DC cardioversion without an ablation procedure. The objectives of the Pilot Study are to validate the key study logistics with a view to optimising methods to be used in the main study.
The aim is to use the GRID to characterize the atrial substrate and develop a model for predicting recurrence rates after a single procedure using a PVI only approach and a contact catheter.
WATCH-Rhythm is a prospective, randomized, multi-center, investigation to collect safety and effectiveness data on combining conventional AF ablation with LAA electric isolation and closure within a single procedure.