1984
DOI: 10.1161/01.cir.70.1.123
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Intra-atrial reentry as a mechanism for atrial flutter induced by acetylcholine and rapid pacing in the dog.

Abstract: In the isolated blood-perfused canine heart we produced episodes of rapid atrial flutter by continuous infusion of acetylcholine and rapid pacing. The spread of excitation during atrial flutter was mapped with the aid of two endocavitary mapping electrodes containing 960 leads and recording from 192 different sites simultaneously. The flutter maps clearly showed that intra-atrial reentry was the mechanism responsible for the arrhythmia. However, the localization and size of the intra-atrial circuits differed f… Show more

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Cited by 267 publications
(96 citation statements)
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“…[25][26][27][28][29][30] It is generally accepted that the requirement for reentry is a spatial variation in propagation based on spatial variations in membrane properties.3"-36 We have shown above that the activation sequence and anisotropic cellular geometry can distort the repolarization sequence even when the membrane properties are homogenous throughout the tissue. Such distortion, which may be enhanced at lower conduction velocities, would cause a spatial inhomogeneity of refractoriness and set the stage for reentrant arrhythmias.…”
Section: Resultsmentioning
confidence: 99%
“…[25][26][27][28][29][30] It is generally accepted that the requirement for reentry is a spatial variation in propagation based on spatial variations in membrane properties.3"-36 We have shown above that the activation sequence and anisotropic cellular geometry can distort the repolarization sequence even when the membrane properties are homogenous throughout the tissue. Such distortion, which may be enhanced at lower conduction velocities, would cause a spatial inhomogeneity of refractoriness and set the stage for reentrant arrhythmias.…”
Section: Resultsmentioning
confidence: 99%
“…Both vagal stimulation and direct application of acetylcholine have been shown to result in AF in dogs. [33][34][35] Spatially disparate effects of vagal stimulation have been demonstrated in the atria. 19,20,36 Although this heterogeneous distribution of vagal effects on electrophysiological properties may contribute to the milieu necessary to maintain multiple-wavelet atrial reentry, it is clearly not sufficient in the baseline state, because spontaneous AF does not occur in the absence of other perturbations (such as vagal stimulation).…”
Section: Role Of Autonomic Nervous System In Afmentioning
confidence: 99%
“…In the face of short refractory periods and slow conduction, reentry is permissible even in small areas of conduction block. 16,17) Multiple reentering wavelets may start to wander through the available tissue and result in AF, when the wavelength is short enough. Patients with AF have been shown to have a higher tendency to develop slow intraatrial conduction (longer conduction time), as well as a shorter effective refractory period than patients without AF.…”
Section: Discussionmentioning
confidence: 99%