Identification, Electro-mechanical Characterisation and Ablation of Driver Regions in Persistent Atrial Fibrillation
- Conditions
- Atrial Tachycardia
- Interventions
- Other: Novel mapping algorithm
- Registration Number
- NCT06335446
- Lead Sponsor
- Barts & The London NHS Trust
- Brief Summary
Atrial fibrillation (AF) is the most common sustained heart rhythm abnormality. Its incidence is increasing partly due to the aging population and it has been referred to as a growing epidemic. AF results in irregular contractions of the heart causing unpleasant symptoms of palpitations and increasing the risk of stroke, heart failure and death. Percutaneous catheter ablation is a safe treatment option in symptomatic patients with AF. The success rate of these procedures have improved with time due to our better understanding of AF, development of new techniques and technology, and greater physician experience. However, the success rate of these procedures still only remains around 70%. This is secondary to our limited ability to find the areas that drive AF.
STAR mapping is a novel mapping system that has been developed with a view of better identifying the sites that drive AF through taking into account the mechanisms of AF we have so far demonstrated. To validate this mapping system we aim to use it in patients with atrial tachycardia (AT), which is a heart rhythm abnormality of which the mechanism can be readily identified with the existing mapping systems used in clinical practice. We will demonstrate that the STAR mapping algorithm can effectively map AT.
- Detailed Description
AT is a heart rhythm that currently can be effectively mapped and ablated using existing mapping systems. The mechanism of this heart rhythm is well understood.
Patients that are scheduled for a catheter ablation for AT by their Electrophysiologist will be enrolled into the study. The patient will have the procedure under local anaesthetics/sedation or general anaesthetic depending on their clinical need.
During the procedure tubes will be passed into the left upper chamber of the heart through the groin. Through these tubes catheters will be used to create a geometry of the heart chamber. Following this, in half of the patients a basket catheter with 64 electrodes will be positioned in the upper chamber whilst conventional catheters will be used in the other half of the patients. The aim of this is to demonstrate that the STAR mapping can be used with multiple mapping catheters. Signals i.e. electrograms will then be collected and used with the STAR mapping algorithm. The AT will then be effectively mapped and ablated with a conventional mapping system. The STAR mapping will then be used for post processing after the case to map the AT and will be compared to the maps generated by the conventional system. This will enable validation of the STAR mapping system.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 30
- Patients able to provide informed consent
- Patients with AT (whether de novo or occurring post AF ablation)
- Unwillingness to sign consent
- Age <18 years old
- Contraindications for catheter ablation procedure
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Arm && Interventions
Group Intervention Description Atrial tachycardia- validation phase Novel mapping algorithm The group will consist of patients with AT (whether de novo or occurring post AF ablation) that are undergoing catheter ablation.
- Primary Outcome Measures
Name Time Method STAR maps compared to conventional maps At procedure The STAR maps demonstrating the source of the AT correlate with the maps created by the conventional mapping system.
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (1)
Barts Heart Centre
🇬🇧London, United Kingdom