An Appraisal of "Supernormal" A-V Conduction
Open Access
- 1 July 1968
- journal article
- review article
- Published by Wolters Kluwer Health in Circulation
- Vol. 38 (1), 5-28
- https://doi.org/10.1161/01.cir.38.1.5
Abstract
Certain temporal patterns of A-V and V-A transmission in experimental preparations resemble phenomena attributed to "supernormal" conduction in the clinic. Detailed study of the properties of the A-V transmission system in such experiments reveals alternative explanations in which supernormality is clearly eliminated. By application of similar principles, supernormality can be eliminated as a factor in most if not all of the published examples. Three major categories can be discerned: (1) occult 2:1 A-V block, in which an idioventricular beat "retracts" an otherwise refractory barrier within the A-V node; (2) alternation between dissociated intranodal transmission pathways; and (3) "ventriculophasic" (vagal) depression of nodal conductivity.Keywords
This publication has 15 references indexed in Scilit:
- An experimental study of concealed conductionAmerican Heart Journal, 1964
- Supernormal phase of atrioventricular (A-V) conduction due to potassium A-V alternans with first-degree A-V blockAmerican Heart Journal, 1961
- Supernormal phase of A-V conduction: Report of two casesAmerican Heart Journal, 1959
- Alternation of A-V conduction timeAmerican Heart Journal, 1958
- Dissociation with interference in the presence of 2:1 atrioventricular blockAmerican Heart Journal, 1952
- The mechanism of irregular sinus rhythm in auriculoventricular heart blockAmerican Heart Journal, 1948
- The supernormal phase of recovery of conduction in the human heartAmerican Heart Journal, 1947
- Variations in A-V and V-A conduction dependent upon the time relations of auricular and ventricular systole: The supernormal phaseAmerican Heart Journal, 1939
- The so-called supernormal recovery phase of conduction in heart muscleAmerican Heart Journal, 1928
- A supernormal phase in conduction and a recovery curve for the human junctional tissuesAmerican Heart Journal, 1926