Identifying extra pulmonary vein targets for persistent atrial fibrillation ablation: bridging advanced and conventional mapping techniques
Identifying extra pulmonary vein targets for persistent atrial fibrillation ablation: bridging advanced and conventional mapping techniques
Background and aims: advanced technologies such as charge density mapping (CDM) show promise in guiding adjuvant ablation in patients with persistent atrial fibrillation (AF); however, their limited availability restricts widespread adoption. We sought to determine whether regions of the left atrium containing CDM-identified pivoting and rotational propagation patterns during AF could also be reliably identified using more conventional contact mapping techniques.
Methods and results: twenty-two patients undergoing de novo ablation of persistent AF underwent both CDM and electroanatomic voltage mapping during AF and sinus rhythm with multiple pacing protocols. Though the use of a left atrium statistical shape model, the location of distinctive propagation patterns identified by CDM were compared with low-voltage areas (LVAs) and regions of slow conduction velocity (CV).ResultsNeither LVA nor CV mapping during paced rhythms reliably identified regions containing CDM propagation patterns. CV mapping during AF did correlate with these regions (ρ = -0.63, p < 0.0001 for pivoting patterns; ρ = -0.54, p < 0.0001 for rotational patterns). These propagation patterns consistently occurred in two specific anatomical regions across patients: the anteroseptal and inferoposterior walls of the left atrium.
Conclusion: mapping techniques during paced rhythms do not reliably correspond with regions of CDM-identified propagation patterns in persistent AF. However, these propagation patterns are consistently observed in two specific anatomical regions, suggesting a predisposition to abnormal electrophysiological properties. While further research is needed, these regions may serve as promising targets for empirical ablation, potentially reducing the reliance on complex mapping techniques.
Sharp, Alexander J.
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Pope, Michael T.
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Gala, Andre Briosa e
409c30a8-0696-4426-9f9b-2539af465dbd
Varini, Richard
1c4158e9-951b-4efc-9155-f5b0bd63db75
Banerjee, Abhirup
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Betts, Timothy R.
a9d90073-a54a-478c-81f0-39ecc5234047
28 March 2025
Sharp, Alexander J.
1b75e163-d071-48d8-ad86-0c5ce163a0f4
Pope, Michael T.
4e7343b7-a8c4-4ce4-a813-ff0d894b0f92
Gala, Andre Briosa e
409c30a8-0696-4426-9f9b-2539af465dbd
Varini, Richard
1c4158e9-951b-4efc-9155-f5b0bd63db75
Banerjee, Abhirup
5e86a831-8881-4362-84a6-ac931b901107
Betts, Timothy R.
a9d90073-a54a-478c-81f0-39ecc5234047
Sharp, Alexander J., Pope, Michael T., Gala, Andre Briosa e, Varini, Richard, Banerjee, Abhirup and Betts, Timothy R.
(2025)
Identifying extra pulmonary vein targets for persistent atrial fibrillation ablation: bridging advanced and conventional mapping techniques.
Europace, 27 (4), [euaf048].
(doi:10.1093/europace/euaf048).
Abstract
Background and aims: advanced technologies such as charge density mapping (CDM) show promise in guiding adjuvant ablation in patients with persistent atrial fibrillation (AF); however, their limited availability restricts widespread adoption. We sought to determine whether regions of the left atrium containing CDM-identified pivoting and rotational propagation patterns during AF could also be reliably identified using more conventional contact mapping techniques.
Methods and results: twenty-two patients undergoing de novo ablation of persistent AF underwent both CDM and electroanatomic voltage mapping during AF and sinus rhythm with multiple pacing protocols. Though the use of a left atrium statistical shape model, the location of distinctive propagation patterns identified by CDM were compared with low-voltage areas (LVAs) and regions of slow conduction velocity (CV).ResultsNeither LVA nor CV mapping during paced rhythms reliably identified regions containing CDM propagation patterns. CV mapping during AF did correlate with these regions (ρ = -0.63, p < 0.0001 for pivoting patterns; ρ = -0.54, p < 0.0001 for rotational patterns). These propagation patterns consistently occurred in two specific anatomical regions across patients: the anteroseptal and inferoposterior walls of the left atrium.
Conclusion: mapping techniques during paced rhythms do not reliably correspond with regions of CDM-identified propagation patterns in persistent AF. However, these propagation patterns are consistently observed in two specific anatomical regions, suggesting a predisposition to abnormal electrophysiological properties. While further research is needed, these regions may serve as promising targets for empirical ablation, potentially reducing the reliance on complex mapping techniques.
Text
euaf048
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Accepted/In Press date: 6 March 2025
e-pub ahead of print date: 12 March 2025
Published date: 28 March 2025
Identifiers
Local EPrints ID: 504488
URI: http://eprints.soton.ac.uk/id/eprint/504488
PURE UUID: e915d620-88b6-42fd-80c7-37c4cba6d78a
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Date deposited: 10 Sep 2025 15:21
Last modified: 11 Sep 2025 03:22
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Contributors
Author:
Alexander J. Sharp
Author:
Michael T. Pope
Author:
Andre Briosa e Gala
Author:
Richard Varini
Author:
Abhirup Banerjee
Author:
Timothy R. Betts
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