Regional Anesthesia
Effects of articaine on action potential characteristics and the underlying ion currents in canine ventricular myocytes

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Background

In spite of its widespread clinical application, there is little information on the cellular cardiac effects of articaine. In the present study, the concentration-dependent effects of articaine on action potential morphology and the underlying ion currents were studied in isolated canine ventricular cardiomyocytes.

Methods

Action potentials were recorded from the enzymatically dispersed myocytes using sharp microelectrodes (16 cells from 3 dogs). Conventional patch clamp and action potential voltage clamp arrangements were used to study the effects of articaine on transmembrane ion currents (37 cells from 14 dogs).

Results

Articaine-induced concentration-dependent changes in action potential configuration including shortening of the action potentials, reduction of their amplitude and maximum velocity of depolarization (Vmax), suppression of early repolarization and depression of plateau. The EC50 value obtained for the Vmax block was 162 (sd 30) μM. Both the reduction of Vmax and action potential shortening were frequency dependent: the former was more prominent at shorter, while the latter at longer pacing cycle lengths. A rate dependent Vmax block, having rapid offset kinetics [τ = 91 (20) ms], was observed in addition to tonic block. Under voltage clamp conditions, a variety of ion currents were blocked by articaine: ICa [EC50 = 471 (75) μM], Ito [EC50 = 365 (62) μM], IK1 [EC50 = 372 (46) μM], IKr [EC50 = 278 (79) μM], and IKs [EC50 = 326 (65) μM]. Hill coefficients were close to unity indicating a single binding site for articaine, except for IK1.

Conclusions

Articaine can modify cardiac action potentials and ion currents at concentrations higher than the therapeutic range which can be achieved only by accidental venous injection. Since its suppressive effects on the inward and outward currents are relatively well balanced, the articaine-induced changes in action potential morphology may be moderate even in the case of overdose.

Keywords

anaesthetics, local
ions, ion channels
heart
pharmacology

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