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EXPERIMENTAL STUDIES

Double component action potentials in the posterior approach to the atrioventricular node: do they reflect activation delay in the slow pathway?

Jacques M. T. de Bakker, PhD^a* , Peter Loh, MD^a* , M.élèze Hocini, MD^a* , Bernard Thibault, MD^a* and Michiel J. Janse, MD^a*

^a Department of Experimental Cardiology, Academic Medical Center, Amsterdam, The Netherlands
^* Interuniversity Cardiology Institute of the Netherlands, Utrecht, The Netherlands
Heart Lung Institute, University of Utrecht, Utrecht, The Netherlands

Manuscript received January 26, 1998; revised manuscript received March 2, 1999, accepted April 9, 1999.

Reprint requests and correspondence: Dr. Jacques M.T. de Bakker, Department of Experimental Cardiology, Academic Medical Center, Meibergdreef 9, 1105 AZ Amsterdam, The Netherlands
j.m.debakker{at}amc.uva.nl

OBJECTIVES

The aim of the study was to elucidate the mechanism of double component action potentials in the posterior approach to the atrioventricular (AV) junctional area.

BACKGROUND

Double component action potentials are often associated with activation delay and therefore might be a marker of the location of the so-called slow pathway.

METHODS

The AV junction was scanned for double component action potentials in Langendorff perfused pig and dog hearts, using conventional microelectrode recordings. Characteristics of these action potentials were investigated during basic and premature stimulation and cooling of the anterior approach to the node.

RESULTS

During basic stimulation, double component action potentials were recorded in 19 out of 20 hearts. In 74% of these cases, the second component occurred before the His deflection. During premature stimulation this percentage was 50%, while delay between the two components always increased. In 80% of the cases, the amplitude of the two components became <20 mV during progressive shortening of the coupling interval. The first component was generated by activation in superficial layers, the second one by activation in deeper layers. Cooling of the anterior region revealed that the second component was caused by activation arriving from the anterior region.

CONCLUSIONS

Double component action potentials in the posterior approach to the AV node are generated by the asynchronous arrival of wave fronts in different, weakly coupled layers or by the summation of asynchronously arriving wave fronts. They are not always associated with activation delay in the slow pathway.

Abbreviations and Acronyms   AV = atrioventricular   CS = coronary sinus   DAM = Diacetyl monoxime   IU = international units   IM = intramuscular   IV = intravenous   M = mega Ohm

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