A Combined Morphological and Electrophysiological Study of the Atrioventricular Node of the Rabbit Heart

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Circulation Research. 1974;35:909-922

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(Circulation Research. 1974;35:909.)
© 1974 American Heart Association, Inc.

A Combined Morphological and Electrophysiological Study of the Atrioventricular Node of the Rabbit Heart

ROBERT H. ANDERSON ¹, Dirk Durrer ¹, MICHIEL J. JANSE ¹, FRANS J. L. VAN CAPELLE ¹, JACQUES BILLETE ¹, ANTON E. BECKER ¹, DIRK DURRER ¹

¹ Department of Cardiology and Clinical Physiology and the Department of Pathology, University of Amsterdam, Wilhelmina Gasthuis, and the Interuniversitary Institute of Cardiology Amsterdam, The Netherlands

Thirteen rabbit atrioventricular nodes were studied both morphologicallyand electrophysiologically. Two of these nodes were subsequentlyreconstructed in three-dimensional fashion. From the morphologicalstandpoint, it was shown that the atrioventricular node wasdivided into a smaller enclosed portion and a larger open portionby a fibrous collar derived from the central fibrous body. Threedistinct nodal cell types were identified within these nodalsegments. The open node was mostly occupied by transitionalcells which merged proximally with the atrial myocardium. Asthey entered the enclosed node, some of these transitional cellsmerged into a knot of midnodal cells. Others passed circumferentiallyround this knot and together with the midnodal cells, joinedwith a tract of lower nodal cells. The latter cells were continuouswith the His bundle anteriorly, but they also extended intothe open node posteriorly. It was possible to correlate theactivation sequence of the node accurately with the dispositionof these cells. Using both reconstructions and techniques tomark cells from which action potentials had been recorded, itwas shown that the transitional cells correlated with the ANzone of the node. Cells with N potentials were located in theenvirons of the midnodal cell knot. The anterior portion ofthe lower nodal cells correlated with the NH nodal zone. Theposterior extension of the lower nodal cells and the overlayfibers of the anterior transitional cells both functioned asdead-end pathways. Histologically distinct tracts were not identifiedwithin the internodal atrial myocardium.

Key Words: AN cells • N cells • NH cells • transitional cells • lower nodel cells • midnodal cells • internodal atrial myocardium • dead-end pathways

Submitted on December 11, 1973
Accepted on July 29, 1974

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				J. P. Kucera and Y. Rudy Mechanistic Insights Into Very Slow Conduction in Branching Cardiac Tissue: A Model Study Circ. Res., October 26, 2001; 89(9): 799 - 806. [Abstract] [Full Text] [PDF]