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Syst Synth Biol. 2007 Mar;1(1):11-23. doi: 10.1007/s11693-006-9002-4.

Simulation of developmental changes in action potentials with ventricular cell models.

Author information

  • 1Institute for Advanced Biosciences, Keio University, Fujisawa, Kanagawa, 252-8520, Japan, ducky@sfc.keio.ac.jp.

Abstract

During cardiomyocyte development, early embryonic ventricular cells show spontaneous activity that disappears at a later stage. Dramatic changes in action potential are mediated by developmental changes in individual ionic currents. Hence, reconstruction of the individual ionic currents into an integrated mathematical model would lead to a better understanding of cardiomyocyte development. To simulate the action potential of the rodent ventricular cell at three representative developmental stages, quantitative changes in the ionic currents, pumps, exchangers, and sarcoplasmic reticulum (SR) Ca(2+) kinetics were represented as relative activities, which were multiplied by conductance or conversion factors for individual ionic systems. The simulated action potential of the early embryonic ventricular cell model exhibited spontaneous activity, which ceased in the simulated action potential of the late embryonic and neonatal ventricular cell models. The simulations with our models were able to reproduce action potentials that were consistent with the reported characteristics of the cells in vitro. The action potential of rodent ventricular cells at different developmental stages can be reproduced with common sets of mathematical equations by multiplying conductance or conversion factors for ionic currents, pumps, exchangers, and SR Ca(2+) kinetics by relative activities.

PMID:
19003434
[PubMed]
PMCID:
PMC2533146
Free PMC Article

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