High potassium and flecainide increased the conduction times of U-turning wavefronts 1.6 times more than longitudinal or transverse planar wavefronts (P < 0.01) in rabbit ventricular myocardium.
Does lowering the safety factor for conduction by high potassium or flecainide preferentially depress conduction of sharply turning wavefronts in rabbit ventricular myocardium?
Lowering excitatory current by potassium or flecainide preferentially impairs U-turn conduction, providing a potential mechanism for the mode of action of Class I antiarrhythmic drugs.
Effect estimate: 1.6 times increase
p-value: p=< 0.01
INTRODUCTION: During reentrant arrhythmias, the circulating wavefront often makes a sharp turn around a functional or anatomic barrier. We tested the hypothesis that lowering the safety factor for conduction by high K+ or flecainide preferentially depresses conduction of sharply turning wavefronts. METHODS AND RESULTS: In 16 Langendorff-perfused rabbit hearts, a thin layer of anisotropic ventricular myocardium was made using a cryoprocedure. In this layer, a linear radiofrequency lesion was made parallel to the fiber orientation. The tip of the lesion was extended by a short incision. U-turning wavefronts were initiated by pacing at one side of the lesion. A mapping electrode (240 electrodes, resolution 350 to 700 microm) was used to measure conduction times and velocity of planar waves (longitudinal and transverse) and U-turning wavefronts. The safety factor for conduction was lowered by high potassium (8, 10, and 12 mmol/L) and flecainide (1 and 2 mg/L). On average, high potassium and flecainide increased the conduction times of U-turning wavefronts 1.6 times more than longitudinal or transverse planar wavefronts (P < 0.01). At a critical lowering of the excitatory current, functional conduction block occurred at the pivot point, which forced the wavefront to make a longer U-turn. In these cases, the total U-turn conduction time increased from 27+/-9 msec to 75+/-37 msec. About 40% of this delay was caused by a shift of the pivot point and consequent lengthening of the returning pathway. CONCLUSION: Lowering the amount of excitatory current by potassium or flecainide preferentially impairs U-turn conduction. The occurrence of long delays and conduction block at pivot points may explain the mode of action of Class I drugs.
Danse et al. (Wed,) conducted a other in Reentrant arrhythmias (experimental model) (n=16). High potassium and flecainide vs. Longitudinal or transverse planar wavefronts was evaluated on Conduction times of U-turning wavefronts (1.6 times increase, p=< 0.01). High potassium and flecainide increased the conduction times of U-turning wavefronts 1.6 times more than longitudinal or transverse planar wavefronts (P < 0.01) in rabbit ventricular myocardium.