Anatomically-Induced Fibrillation in a 3D Model of the Human Atria

M. Potse*, A. Gharaviri, S. Pezzuto, A. Auricchio, R. Krause, S. Verheule, U. Schotten

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingAcademicpeer-review

Abstract

Atrial fibrillation (AF) requires both a trigger and a substrate that can maintain a complex reentrant activity. In patients and in experimental models this substrate is provided by both electrical and structural remodeling. Since these processes overlap in time it is impossible to assess their individual contributions to AF maintenance experimentally. Therefore we studied the effect of electrical remodeling alone on AF initiation in a realistic numerical model of the human atria. We attempted to initiate AF by rapid pacing in 10 different locations, both with and without electrical remodeling. The protocols were repeated twice, with small variations in calcium conductivity, so that in total 30 simulations with and 30 simulations without remodeling were performed. In models with electrical remodeling, functional conduction block at structural in-homogeneities induced AF in 27% of the simulations. In models without electrical remodeling, AF could not be induced. We conclude that in the complex anatomy of the atria electrical remodeling alone increases the probability of AF substantially. This finding supports a mechanism whereby electrical remodeling, which occurs relatively fast, accelerates the slower but irreversible structural remodeling process.
Original languageEnglish
Title of host publicationComputing in Cardiology Conference, CinC 2018
PublisherIEEE
Number of pages4
Volume45
ISBN (Electronic)9781728109589
ISBN (Print)9781728109589
DOIs
Publication statusPublished - Sept 2018
Event45th Computing in Cardiology Conference (CinC) - NETHERLANDS
Duration: 23 Sept 201826 Sept 2018

Publication series

SeriesComputing in Cardiology Conference
Volume45
ISSN2325-8861

Conference

Conference45th Computing in Cardiology Conference (CinC)
Period23/09/1826/09/18

Keywords

  • CONNECTIONS
  • MECHANISMS
  • CONDUCTION

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