PMID: 8973390Sep 1, 1996Paper

Electrophysiology of the A-V node in relation to A-V nodal reentry

Japanese Heart Journal
M J JanseJ M de Bakker

Abstract

During A-V nodal reentry the impulse is supposed to travel through two distinct pathways in the A-V nodal junction, called slow and fast pathways. Clinically, catheter ablation of these pathways has been very successful in abolishing A-V nodal reentrant tachycardias. So-called double potentials have been used as a marker for the slow pathway, and the occurrence of accelerated junctional rhythms (AJR) following ablation is an indicator of successful destruction of the slow pathway. In Langendorff, blood-perfused porcine and canine hearts, extensive mapping of extracellular potentials, combined with microelectrode recordings, was carried out to answer the following questions: 1) what is the origin of double extracellular potentials? 2) what causes post-ablation AJR? 3) what is the activation pattern of the AV junction during ventricular echoes? 1) Two types of double potentials were found: a low-frequency component followed by a high-frequency deflection, the LH potential was caused by asynchronous activation of the sinus septum above the coronary sinus and the region between the coronary sinus orifice and tricuspid annulus, where the L component is a far field potential. HL potentials (high-frequency deflection followed by a low...Continue Reading

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