Characterizing Spatial Dynamics of Bifurcation to Alternans in Isolated Whole Rabbit Hearts Based on Alternate Pacing

Overview

Journal Biomed Res Int

Publisher Wiley

Specialties Biomedical Engineering
Biotechnology
General Medicine

Date 2015 Nov 20

PMID 26581885

Citations 6

Authors

Kanchan Kulkarni

Ramjay Visweswaran

Xiaopeng Zhao

Elena G Tolkacheva

Affiliations

Soon will be listed here.

Abstract

Sudden cardiac death instigated by ventricular fibrillation (VF) is the largest cause of natural death in the USA. Alternans, a beat-to-beat alternation in the action potential duration, has been implicated as being proarrhythmic. The onset of alternans is mediated via a bifurcation, which may occur through either a smooth or a border-collision mechanism. The objective of this study was to characterize the mechanism of bifurcation to alternans based on experiments in isolated whole rabbit hearts. High resolution optical mapping was performed and the electrical activity was recorded from the left ventricle (LV) epicardial surface of the heart. Each heart was paced using an "alternate pacing protocol," where the basic cycle length (BCL) was alternatively perturbed by ±δ. Local onset of alternans in the heart, BCL(start), was measured in the absence of perturbations (δ = 0) and was defined as the BCL at which 10% of LV exhibited alternans. The influences of perturbation size were investigated at two BCLs: one prior to BCL(start) (BCL(prior) = BCL(start) + 20 ms) and one preceding BCL(prior) (BCL(far) = BCL(start) + 40 ms). Our results demonstrate significant spatial correlation of the region exhibiting alternans with smooth bifurcation characteristics, indicating that transition to alternans in isolated rabbit hearts occurs predominantly through smooth bifurcation.

Citing Articles

Role of ephaptic coupling in discordant alternans domain sizes and action potential propagation in the heart.

Otani N, Figueroa E, Garrison J, Hewson M, Munoz L, Fenton F Phys Rev E. 2023; 107(5-1):054407.

PMID: 37329030 PMC: 10688036. DOI: 10.1103/PhysRevE.107.054407.

Ephaptic Coupling as a Resolution to the Paradox of Action Potential Wave Speed and Discordant Alternans Spatial Scales in the Heart.

Otani N, Figueroa E, Garrison J, Hewson M, Munoz L, Fenton F Phys Rev Lett. 2023; 130(21):218401.

PMID: 37295103 PMC: 10688031. DOI: 10.1103/PhysRevLett.130.218401.

Advances in Cardiac Pacing: Arrhythmia Prediction, Prevention and Control Strategies.

Patel M, Sampath S, Kapoor A, Damani D, Chellapuram N, Challa A Front Physiol. 2021; 12:783241.

PMID: 34925071 PMC: 8674736. DOI: 10.3389/fphys.2021.783241.

Clinical Potential of Beat-to-Beat Diastolic Interval Control in Preventing Cardiac Arrhythmias.

Kulkarni K, Walton R, Armoundas A, Tolkacheva E J Am Heart Assoc. 2021; 10(11):e020750.

PMID: 34027678 PMC: 8483541. DOI: 10.1161/JAHA.121.020750.

The influences of the M2R-GIRK4-RGS6 dependent parasympathetic pathway on electrophysiological properties of the mouse heart.

Kulkarni K, Xie X, Marron Fernandez de Velasco E, Anderson A, Martemyanov K, Wickman K PLoS One. 2018; 13(4):e0193798.

PMID: 29668674 PMC: 5905881. DOI: 10.1371/journal.pone.0193798.

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