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Inter-Subject Variability in Human Atrial Action Potential in Sinus Rhythm versus Chronic Atrial Fibrillation

Author

Listed:
  • Carlos Sánchez
  • Alfonso Bueno-Orovio
  • Erich Wettwer
  • Simone Loose
  • Jana Simon
  • Ursula Ravens
  • Esther Pueyo
  • Blanca Rodriguez

Abstract

Aims: Human atrial electrophysiology exhibits high inter-subject variability in both sinus rhythm (SR) and chronic atrial fibrillation (cAF) patients. Variability is however rarely investigated in experimental and theoretical electrophysiological studies, thus hampering the understanding of its underlying causes but also its implications in explaining differences in the response to disease and treatment. In our study, we aim at investigating the ability of populations of human atrial cell models to capture the inter-subject variability in action potential (AP) recorded in 363 patients both under SR and cAF conditions. Methods and Results: Human AP recordings in atrial trabeculae (n = 469) from SR and cAF patients were used to calibrate populations of computational SR and cAF atrial AP models. Three populations of over 2000 sampled models were generated, based on three different human atrial AP models. Experimental calibration selected populations of AP models yielding AP with morphology and duration in range with experimental recordings. Populations using the three original models can mimic variability in experimental AP in both SR and cAF, with median conductance values in SR for most ionic currents deviating less than 30% from their original peak values. All cAF populations show similar variations in GK1, GKur and Gto, consistent with AF-related remodeling as reported in experiments. In all SR and cAF model populations, inter-subject variability in IK1 and INaK underlies variability in APD90, variability in IKur, ICaL and INaK modulates variability in APD50 and combined variability in Ito and IKur determines variability in APD20. The large variability in human atrial AP triangulation is mostly determined by IK1 and either INaK or INaCa depending on the model. Conclusion: Experimentally-calibrated human atrial AP models populations mimic AP variability in SR and cAF patient recordings, and identify potential ionic determinants of inter-subject variability in human atrial AP duration and morphology in SR versus cAF.

Suggested Citation

  • Carlos Sánchez & Alfonso Bueno-Orovio & Erich Wettwer & Simone Loose & Jana Simon & Ursula Ravens & Esther Pueyo & Blanca Rodriguez, 2014. "Inter-Subject Variability in Human Atrial Action Potential in Sinus Rhythm versus Chronic Atrial Fibrillation," PLOS ONE, Public Library of Science, vol. 9(8), pages 1-14, August.
  • Handle: RePEc:plo:pone00:0105897
    DOI: 10.1371/journal.pone.0105897
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    References listed on IDEAS

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    1. Darwin Jeyaraj & Saptarsi M. Haldar & Xiaoping Wan & Mark D. McCauley & Jürgen A. Ripperger & Kun Hu & Yuan Lu & Betty L. Eapen & Nikunj Sharma & Eckhard Ficker & Michael J. Cutler & James Gulick & At, 2012. "Circadian rhythms govern cardiac repolarization and arrhythmogenesis," Nature, Nature, vol. 483(7387), pages 96-99, March.
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    Cited by:

    1. Violeta Monasterio & Joel Castro-Mur & Jesús Carro, 2018. "DENIS: Solving cardiac electrophysiological simulations with volunteer computing," PLOS ONE, Public Library of Science, vol. 13(10), pages 1-12, October.
    2. Jordan Elliott & Maria Kristina Belen & Luca Mainardi & Josè Felix Rodriguez Matas, 2021. "A Comparison of Regional Classification Strategies Implemented for the Population Based Approach to Modelling Atrial Fibrillation," Mathematics, MDPI, vol. 9(14), pages 1-21, July.
    3. Tanmay A Gokhale & Jong M Kim & Robert D Kirkton & Nenad Bursac & Craig S Henriquez, 2017. "Modeling an Excitable Biosynthetic Tissue with Inherent Variability for Paired Computational-Experimental Studies," PLOS Computational Biology, Public Library of Science, vol. 13(1), pages 1-26, January.

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