The development of ventricular fibrillation (VF) and sudden cardiac death include several key steps, such as initiation of reentry, degeneration to multiple reentrant waves, and maintenance of VF. issue heterogeneity has been traditionally considered as the major cause for these key steps leading to VF. However, recent studies indicate that dynamic wave instability operates synergistically with pre-existing tissue heterogeneity to promote wavebreak. Dynamic wave stability is regulated by multiple factors, including electrical restitution, intracellular Ca (Cai) cycling, cardiac memory, and electrotonic currents. The goal of this project is to use computer simulations with simplified models to developed theories which identify the critical parameters controlling the development of VF, as the theoretical basis for novel therapeutic strategies. The central task of this project is to investigate how voltage, Cai, and tissue heterogeneity interact to regulate vulnerability to rentry and maintenace of VF.
The first aim i s to develop simplified models to investigate the nonlinear dynamics of Cai cycling coupled to membrane voltage, in order to understand dynamical mechanisms of cardiac alternans.
The second aim i s to use physiologically-detailed AP models in homogeneous tissues to determine the physiological mechanisms by which voltage-Cai dynamics promotes spatially discordant alternans, dispersion of refractoriness, wave instability and arrhythmogenesis.
The third aim i s to determine how voltage-Cai dynamics interacts with tissue heterogeneities to regulate spatially discordant alternans, dispersion of refractoriness, wave instability and arrhythmogenesis. This project will develop general theories which will then be validated in more realistic settings in Projects 1, 3, and 4. The approach in this project will allow us to extensively explore the parameter space and systematically investigate the mechanisms of VF initiation and maintenance to identify the critical parameters essential for developing novel therapeutic strategies.
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