Cardiac Atrial Cell (Courtemanche et al 1998) (C++)

The mechanisms underlying many important properties of the human atrial action potential (AP) are poorly understood. Using specific formulations of the K+, Na+, and Ca2+ currents based on data recorded from human atrial myocytes, along with representations of pump, exchange, and background currents, we developed a mathematical model of the AP. The model AP resembles APs recorded from human atrial samples and responds to rate changes, L-type Ca2+ current blockade, Na+/Ca2+ exchanger inhibition, and variations in transient outward current amplitude in a fashion similar to experimental recordings. Rate-dependent adaptation of AP duration, an important determinant of susceptibility to atrial fibrillation, was attributable to incomplete L-type Ca2+ current recovery from inactivation and incomplete delayed rectifier current deactivation at rapid rates. Experimental observations of variable AP morphology could be accounted for by changes in transient outward current density, as suggested experimentally. We conclude that this mathematical model of the human atrial AP reproduces a variety of observed AP behaviors and provides insights into the mechanisms of clinically important AP properties.

Model Type: Neuron or other electrically excitable cell; Electrogenic pump

Currents: I Na,t; I L high threshold; I K; I Sodium; I Calcium; I Potassium; Na/K pump

Transmitters: Acetylcholine

Model Concept(s): Ion Channel Kinetics; Action Potentials; Pathophysiology; Heart disease; Sodium pump

Simulation Environment: C or C++ program

Implementer(s): Wu, Sheng-Nan [snwu at]; Lai, Hsing-Jung


Courtemanche M, Ramirez RJ, Nattel S. (1998). Ionic mechanisms underlying human atrial action potential properties: insights from a mathematical model. The American journal of physiology. 275 [PubMed]

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