期刊
AMERICAN JOURNAL OF PHYSIOLOGY-HEART AND CIRCULATORY PHYSIOLOGY
卷 299, 期 2, 页码 H454-H469出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpheart.00907.2009
关键词
cardiac myocytes; action potential; computer modeling; alternans
资金
- National Heart, Lung, and Blood Institute [R01-HL-59526]
- National Science Foundation [DBI-9873173]
- Pittsburgh Supercomputer Center [MCB010020P]
- Georgia State University
Bondarenko VE, Rasmusson RL. Transmural heterogeneity of repolarization and Ca2+ handling in a model of mouse ventricular tissue. Am J Physiol Heart Circ Physiol 299: H454-H469, 2010. First published June 4, 2010; doi:10.1152/ajpheart.00907.2009.-Mouse hearts have a diversity of action potentials (APs) generated by the cardiac myocytes from different regions. Recent evidence shows that cells from the epicardial and endocardial regions of the mouse ventricle have a diversity in Ca2+ handling properties as well as K+ current expression. To examine the mechanisms of AP generation, propagation, and stability in transmurally heterogeneous tissue, we developed a comprehensive model of the mouse cardiac cells from the epicardial and endocardial regions of the heart. Our computer model simulates the following differences between epicardial and endocardial myocytes: 1) AP duration is longer in endocardial and shorter in epicardial myocytes, 2) diastolic and systolic intracellular Ca2+ concentration and intracellular Ca2+ concentration transients are higher in paced endocardial and lower in epicardial myocytes, 3) Ca2+ release rate is about two times larger in endocardial than in epicardial myocytes, and 4) Na+/Ca2+ exchanger rate is greater in epicardial than in endocardial myocytes. Isolated epicardial cells showed a higher threshold for stability of AP generation but more complex patterns of AP duration at fast pacing rates. AP propagation velocities in the model of two-dimensional tissue are close to those measured experimentally. Simulations show that heterogeneity of repolarization and Ca2+ handling are sustained across the mouse ventricular wall. Stability analysis of AP propagation in the two-dimensional model showed the generation of Ca2+ alternans and more complex transmurally heterogeneous irregular structures of repolarization and intracellular Ca2+ transients at fast pacing rates.
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