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(Circulation. 2008;117:1474-1477.)
© 2008 American Heart Association, Inc.

Images in Cardiovascular Medicine

Optical Mapping of the Human Atrioventricular Junction

William J. Hucker, PhD; Vadim V. Fedorov, PhD; Kelley V. Foyil, MS; Nader Moazami, MD; Igor R. Efimov, PhD

From the Department of Biomedical Engineering (W.J.H., V.V.F., K.V.F., I.R.E.) and Department of Surgery, School of Medicine (N.M.), Washington University, St. Louis, Mo.

Correspondence to Igor R. Efimov, Washington University in St. Louis, Department of Biomedical Engineering, Campus Box 1097, 1 Brookings Dr, St. Louis, MO 63130. E-mail igor@wustl.edu

An extract of the first 250 words of the full text is provided, because this article has no abstract.

Fluorescent optical mapping of cardiac electrophysiology in animal models has produced a wealth of information about the function of the cardiac pacemaking and conduction system. However, expanding optical mapping studies to the human conduction system will significantly increase our understanding of clinically relevant phenomena, such as atrioventricular nodal reentrant tachycardia, that are difficult to fully reproduce in animal models. In this report, we present the first instance of optical mapping data recorded from the human atrioventricular junction, revealing its dual pathway electrophysiology, which is the basis of atrioventricular nodal reentrant tachycardia.

Explanted human hearts (n=2) were obtained at the time of cardiac transplantation and perfused with cardioplegic solution. The atrioventricular junction was cannulated, isolated from the rest of the heart, immobilized with the excitation-contraction uncoupler blebbistatin (10 µmol/L),¹ and optically mapped using the voltage sensitive dye Di-4-ANEPPS and a 16x16 photodiode array. In the first heart, explanted because of idiopathic cardiomyopathy, successful perfusion of the His bundle and ventricular septum, but not the atrioventricular (AV) node, was achieved. In this preparation, a junctional rhythm of 55 bpm originated from the His bundle (Figure 1). Optical action potentials (OAPs) from the His displayed diastolic depolarization and a slow upstroke with the maximum derivative of the fluorescent signal dF/dt_max=2.8±0.5 U/s. Pacing the surrounding working ventricular myocardium produced a sharper upstroke (dF/dt_max=37±11, P<0.001 versus His OAPs) and longer action potential duration (APD) than the His (APD₈₀: 315±23 ms in His versus 410±3ms in ventricle, P. . . [Full Text of this Article]

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