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Research Center, Montreal Heart Institute, Montreal, Quebec H1T 1C8, Canada
Ionically based cardiac action
potential (AP) models are based on equations with singular Jacobians
and display time-dependent AP and ionic changes (transients), which may
be due to this mathematical limitation. The present study evaluated
transients during long-term simulated activity in a mathematical model
of the canine atrial AP. Stimulus current assignment to a specific
ionic species contributed to stability. Ionic concentrations were least
disturbed with the K+ stimulus current. All parameters
stabilized within 6-7 h. Inward rectifier,
Na+/Ca2+ exchanger, L-type Ca2+,
and Na+-Cl
cotransporter currents made the
greatest contributions to stabilization of intracellular
[K+], [Na+], [Ca2+], and
[Cl], respectively. Time-dependent AP shortening was
largely due to the outward shift of Na+/Ca2+
exchange related to intracellular Na+
(Na
ionic drift; action potential transients; atrial fibrillation; electrophysiology; ion channels and transporters
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