Circulation, Vol 86, 263-271, Copyright © 1992 by American Heart Association
CJ Kirchhof and MA Allessie
BACKGROUND. It is still unclear what role the sinus node may play in the
genesis or perpetuation of atrial fibrillation. Therefore, we studied the
electrical activity in different regions of the sinus node during atrial
fibrillation. METHODS AND RESULTS. In Langendorff- perfused rabbit hearts,
paroxysms of atrial fibrillation were induced by burst pacing. Standard
microelectrode techniques were used to record transmembrane potentials from
different regions of the sinus node. We found that during atrial
fibrillation, a high degree (5:1) of sinoatrial entrance block was present
that protected the pacemaker fibers in the center of the sinus node against
the high rate of fibrillatory impulses. As a result, the true pacemaker
fibers in the center of the node were activated with only a slightly higher
average rate than during sinus rhythm. Spontaneous diastolic depolarization
was still present but was modulated by electrotonic depolarizations due to
intranodal conduction block of atrial fibrillatory impulses. Incidentally,
phase 4 depolarization resulted in the generation of spontaneous action
potentials in the sinus node. However, the high activation rate in the
sinoatrial border during atrial fibrillation prevented these spontaneous
impulses to exit from the sinus node. Because of the minimal degree of
sinus node overdrive suppression (9%) and the presence of concealed
automaticity during atrial fibrillation, spontaneous termination of atrial
fibrillation was promptly followed by resumption of normal sinus rhythm.
CONCLUSIONS. During atrial fibrillation, sinus automaticity still is
present in the center of the sinus node and hardly overdrive suppressed due
to a high degree of sinoatrial entrance block.
ARTICLES
Sinus node automaticity during atrial fibrillation in isolated rabbit hearts
Department of Physiology, University of Limburg, Maastricht, The Netherlands.
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