From High-Density Mapping to Low-Density Mapping: Outlining the Active Circuit in Complex Atrial Re-Entrant Tachycardias

The aim of this study was to describe a mapping approach for ablation of complex atrial re-entrant tachycardias (ARTs) in which high-density activation maps are transformed into low-density activation maps displaying only the active part of the tachycardia circuit. High-density activation maps durin...

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Bibliographic Details
Published in:JACC. Clinical electrophysiology 2020-05, Vol.6 (5), p.523-532
Main Authors: Rodríguez Font, Enrique, Alonso-Martín, Concepción, Guerra, José M, Campos García, Bieito, Méndez Zurita, Francisco, Alcalde Rodríguez, Oscar, Moreno Weidmann, Zoraida, Espinosa Viamonte, Hildemari, El Amrani Rami, Amin, Maldonado Chavez, Jenson, González Matos, Carlos, Torner Montoya, Pelayo, Viñolas Prat, Xavier
Format: Article
Language:English
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Summary:The aim of this study was to describe a mapping approach for ablation of complex atrial re-entrant tachycardias (ARTs) in which high-density activation maps are transformed into low-density activation maps displaying only the active part of the tachycardia circuit. High-density activation maps during complex ARTs are challenging to interpret because they include the activation patterns of active and passive circuits. Entrainment mapping provides the identification of the active tachycardia circuit. However, current electroanatomic mapping systems are not capable of color-coding the information obtained from entrainment maneuvers. Seventeen consecutive patients with atypical atrial flutter were included. A high-density activation map was acquired during index tachycardia. Subsequently, entrainment maneuvers were performed to generate a low-density activation map in which only the activation of the atria directly involved in the flutter circuit was displayed. Of all patients included, 82% were men, and their mean age was 62 ± 7 years. Structural heart disease was present in 59%, and 53% had undergone prior left atrial ablation procedures. Low-density activation maps were successfully generated from an average of 14 ± 3 entrainment points. Twenty circuits (95%) were identified in the left atrium and 1 (5%) in the right atrium. Ablation guided by low-density mapping successfully terminated all ARTs in 267 ± 353 s of radiofrequency application. Low-density mapping based on entrainment maneuvers provides a precise delineation of the active circuit during complex ARTs and resulted in successful arrhythmia termination. This approach can be easily incorporated into clinical practice.
ISSN:2405-5018
DOI:10.1016/j.jacep.2019.12.001