Shape vs Substrate in AF

Atrial Fibrillation Clinical Trial

Official title: Investigating the Interplay of Left Atrial Geometry With Abnormal Propagation Patterns in Atrial Fibrillation

Status Withdrawn

Clinical Trial Summary

Atrial fibrillation (AF) is an abnormal heart rhythm which originates from the top two chambers (atria) of the heart. It can cause significant symptoms and have severe consequences such as stroke. Catheter ablation is a treatment for AF. It is minimally invasive, involving thin tubes known as catheters, being inserted through a blood vessel in the groin and passed to the heart under X-ray guidance. Once in the heart, regions of tissue believed responsible for the abnormal heart rhythm can be identified, and hot or cold energy used to create scar at these areas, preventing the abnormal rhythm. Identifying these regions is a key challenge in making the treatment as effective as possible. The investigators believe that there may be a change in the shape of a participant's atria in these regions and as such identifying and treating areas of abnormal shape may be beneficial. To investigate this, the study team propose three phases. The first, uses previously collected data to make a model of what is average atrial geometry in AF. Investigators will then compare individual participants' atrial geometries to this average shape to identify areas of geometric abnormality and see how these correspond to areas of abnormal electrical activity. In the second phase, investigators will collect new data on how much atrial geometry changes during catheter ablation procedures. Finally, in the third phase, investigators will investigate whether including geometric assessment in the catheter ablation procedure is feasible from a work flow perspective.

Clinical Trial Description

This study will utilise the AcQMap system (Acutus Medical). This is a combined multi-electrode and imaging mapping system, with intra chamber ultrasound used to create a surface mesh of a participant's atrial anatomy. Noncontact charge-density mapping using AcQMap is novel, in that it allows whole chamber conduction to be analysed during AF. This is a distinct advantage over traditional contact mapping techniques, which are unable to globally map the inherently unstable and changing activation patterns occurring in AF. The system's AcQTrack software identifies patterns of localised propagation which may represent AF drivers and displays these on the surface mesh. They are classified as one of three phenomena (localised irregular activation [LIA], localised rotational activity [LRA], focal firing [FF]). AcQMap is the ideal tool for our investigation, given its ability to capture both global AF maps and geometric data. It is utilised routinely in clinical practice and there is an existing rich local dataset of previous cases. Study Phases: 1. A retrospective observational phase recruiting >50 participants, utilising data already collected as part of standard clinical care. Investigators will use statistical shape analysis methods to create a left atrial shape model for perAF and see how individuals' left atrial geometries differ from this model. Investigators will then assess whether areas of abnormal geometry correlate with areas of abnormal electrical propagation in AF. 2. A prospective single-arm phase recruiting 20 participants undergoing AcQMap guided ablation. As previously mentioned, temporal stability is a defining characteristic of suitable ablation targets. Atrial geometry is dynamic, being related to phase of ventricular contraction and is also affected by an individual's volume status. To investigate variation in geometry, individuals in this substudy will have additional ultrasound geometries collected during their ablation procedure. 3. A feasibility study in 10 participants will assess our ability to include shape analysis as part of the procedural workflow for AF ablation utilising the AcQMap system. ;

Related Conditions & MeSH terms

• Atrial Fibrillation
• Atrial Fibrillation, Persistent

• NCT number: NCT05993104
• Study type: Observational
• Source: Oxford University Hospitals NHS Trust
• Status: Withdrawn
• Start date: January 2024
• Completion date: September 2026