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Alternative mechanisms of apparent supernormal atrioventricular conduction

1973; Elsevier BV; Volume: 31; Issue: 3 Linguagem: Inglês

10.1016/0002-9149(73)90269-5

1879-1913

John J. Gallagher, Anthony N. Damato, P.Jacob Varghese, Anthony R. Caracta, Mark E. Josephson, Sun H. Lau,

Atrial Fibrillation Management and Outcomes

Alternative mechanisms were found to explain several different electrocardiographic examples of apparent supernormal atrioventricular (A-V) conduction in man using programmed premature atrial and ventricular stimulation and His bundle recordings. Sudden shortening of the P-R interval during A-V nodal Wenckebach phenomenon was due to manifest or concealed reentry within the A-V node. Gap phenomena in which late atrial premature depolarizations blocked while earlier atrial premature depolarizations conducted were shown to result from delay of earlier atrial premature depolarizations in the A-V node (type I gap) or in the His-Purkinje system (type II gap). Mechanisms analogous to the latter were found in cases of apparent supernormality of intraventricular conduction: Late atrial premature depolarizations resulted in aberration whereas earlier atrial premature depolarizations conducted normally because of delay within the A-V node or His-Purkinje system. Unexpected normalization of a bundle branch block pattern also resulted from Wenckebach phenomenon in the bundle branches. Atypical Wenckebach phenomenon with the first beat of the period demonstrated that aberration was due to phase 4 depolarization. Preexcitation of the ventricle before the delivery of a previously blocked atrial premature depolarization allowed conduction through the area of block (A-V node) because of earlier depolarization of the latter with earlier recovery. In the His-Purkinje system, 2:1 A-V block was converted to 1:1 conduction when a premature ventricular depolarization shortened the refractoriness of the His-Purkinje system.