Isoflurane (2.5 vol%) and sevoflurane (5.0 vol%) reduced the time constant of inactivation in ICa to 55% and 75% of control, respectively, explaining the reduction in amplitude of ICa.
Do isoflurane and sevoflurane modulate the inactivation kinetics of calcium currents in bullfrog atrial myocytes?
Isoflurane and sevoflurane depress myocardial calcium currents primarily by decreasing the time constant of inactivation at lower concentrations.
BACKGROUND: To clarify the mechanism(s) of anesthetic depression of myocardial Ca2+ currents, the effects of isoflurane and sevoflurane on the inactivation kinetics of Ca2+ current in single bullfrog atrial myocytes were studied. METHODS: Freshly isolated bullfrog atrial myocytes were obtained with an enzymatic dispersion procedure. Ca2+ currents were recorded with a whole-cell voltage-clamp technique. RESULTS: Both isoflurane (1.25, 2.5, 5.0 vol%) and sevoflurane (2.5, 5.0 vol%) decreased the peak amplitude of Ca2+ current ICa with a minimal change in the time to peak and the reversal potential. The inactivation kinetics studies revealed that (1) isoflurane (2.5 vol%) and sevoflurane (5.0 vol%) markedly reduced the time constant of inactivation in ICa to 55% and 75% of control, respectively; (2) isoflurane (2.5 vol%) shifted the midpoint (V1/2) of steady-state inactivation curve of ICa toward negative by 2.3 mV; and (3) isoflurane (2.5 vol%) delayed the reactivation time constant of ICa to 119% of control. The further computer-simulation study demonstrated that the observed decrease of time constant by isoflurane (1.25, 2.5 vol%) and sevoflurane (2.5 vol%) can explain the reduction in amplitude of ICa. CONCLUSIONS: The depression of ICa by lower concentration of isoflurane (1.25, 2.5 vol%) and sevoflurane (2.5 vol%) mainly is due to the decrease of time constant and, at higher concentration, isoflurane and sevoflurane may affect the other membrane components.
Hirota et al. (Thu,) conducted a other in Anesthetic depression of myocardial Ca2+ currents. Isoflurane and sevoflurane vs. Control was evaluated on Inactivation kinetics of Ca2+ current (ICa). Isoflurane (2.5 vol%) and sevoflurane (5.0 vol%) reduced the time constant of inactivation in ICa to 55% and 75% of control, respectively, explaining the reduction in amplitude of ICa.