Journal of Arrhythmia (Dec 2024)

Identification of regions maintaining atrial fibrillation through cycle length and cycle length gradient mapping

  • Masafumi Shimojo,
  • Yasuya Inden,
  • Satoshi Yanagisawa,
  • Ryota Yamauchi,
  • Kei Hiramatsu,
  • Tomoya Iwawaki,
  • Masaya Tachi,
  • Shun Kondo,
  • Takayuki Goto,
  • Yukiomi Tsuji,
  • Toyoaki Murohara

DOI
https://doi.org/10.1002/joa3.13151
Journal volume & issue
Vol. 40, no. 6
pp. 1389 – 1399

Abstract

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Abstract Background Visualizing the specific regions where atrial fibrillation (AF) is maintained is crucial for effective treatment, but it remains challenging in clinical practice. We aimed to address this challenge by developing a mapping approach focused on the cycle length (CL) and its gradient (CL‐gradient). Methods In 105 patients undergoing initial ablation for persistent AF, pre‐ablation CARTOFINDER data were utilized to create maps based on three indicators: (1) CL, the atrial frequency during AF calculated using CARTOFINDER; (2) Short CL, encompassing CLs within 5 ms of the minimum CL; and (3) CL‐gradient, the CL range within a 6 mm radius. We evaluated the association between the AF termination through ablation and the measured values and patterns in each map. Results AF termination occurred in 17 patients. The AF termination group exhibited the significant large maximum CL‐gradient (48.8 ms [interquartile range, 38.6–66.3], p <.001) and the short distance between the minimum CL site and the maximum CL‐gradient site (15.8 mm, [interquartile range, 6.0–23.2], p =.029). Of the 17 AF termination cases, 13 exhibited a CL distribution pattern characterized by a steep CL‐gradient near the minimum CL site (SG‐MCL), defined as the distance of less than 23.2 mm and the maximum CL‐gradient greater than 33.1 ms. In these AF termination cases, SG‐MCL was also correlated with the ablation area. Conclusions The minimum CL area accompanied by significant CL gradients in the immediate vicinity may play a crucial role in sustaining AF.

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