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    Electrophysiological and structural determinants of electrotonic modulation of repolarization by the activation sequence

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    Publication date
    2013-10-08
    Author
    Walton, R.D.
    Benson, A.P.
    Hardy, Matthew E.
    White, E.
    Bernus, O.
    Keyword
    Action potential duration
    Heterogeneity
    Ventricular repolarization
    Electrotonic current
    Cardiac electrophysiology
    Repolarization
    Rights
    © 2013 Walton, Benson, Hardy, White and Bernus. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
    Peer-Reviewed
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    Abstract
    Spatial dispersion of repolarization is known to play an important role in arrhythmogenesis. Electrotonic modulation of repolarization by the activation sequence has been observed in some species and tissue preparations, but to varying extents. Our study sought to determine the mechanisms underlying species- and tissue-dependent electrotonic modulation of repolarization in ventricles. Epi-fluorescence optical imaging of whole rat hearts and pig left ventricular wedges were used to assess epicardial spatial activation and repolarization characteristics. Experiments were supported by computer simulations using realistic geometries. Tight coupling between activation times (AT) and action potential duration (APD) were observed in rat experiments but not in pig. Linear correlation analysis found slopes of −1.03 ± 0.59 and −0.26 ± 0.13 for rat and pig, respectively (p < 0.0001). In rat, maximal dispersion of APD was 11.0 ± 3.1 ms but dispersion of repolarization time (RT) was relatively homogeneous (8.2 ± 2.7, p < 0.0001). However, in pig no such difference was observed between the dispersion of APD and RT (17.8 ± 6.1 vs. 17.7 ± 6.5, respectively). Localized elevations of APD (12.9 ± 8.3%) were identified at ventricular insertion sites of rat hearts both in experiments and simulations. Tissue geometry and action potential (AP) morphology contributed significantly to determining influence of electrotonic modulation. Simulations of a rat AP in a pig geometry decreased the slope of AT and APD relationships by 70.6% whereas slopes were increased by 75.0% when implementing a pig AP in a rat geometry. A modified pig AP, shortened to match the rat APD, showed little coupling between AT and APD with greatly reduced slope compared to the rat AP. Electrotonic modulation of repolarization by the activation sequence is especially pronounced in small hearts with murine-like APs. Tissue architecture and AP morphology play an important role in electrotonic modulation of repolarization.
    URI
    http://hdl.handle.net/10454/16507
    Version
    published version paper
    Citation
    Walton RD, Benson AP, Hardy ME, White E and Bernus O (2013) Electrophysiological and structural determinants of electrotonic modulation of repolarization by the activation sequence. Frontiers in Physiology. 4: 281.
    Link to publisher’s version
    https://doi.org/10.3389/fphys.2013.00281
    Type
    Article
    Collections
    Life Sciences Publications

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