Youhua Zhang1. 1. Departments of Cardiovascular Medicine and Molecular Cardiology, The Cleveland Clinic Foundation, Cleveland, OH, USA, yzhang49@nyit.edu.
Abstract
BACKGROUND: Zhang's phenomenon (originally His electrogram alternans) is a new index of atrioventricular node dual pathway electrophysiology. This index has been described and validated in isolated hearts in vitro, but has not been recorded in vivo. METHODS: This study explored the feasibility of in vivo recording of Zhang's phenomenon (His electrogram alternans) in six dogs with a custom-built bipolar electrode. RESULTS: The His electrogram recorded from superior His bundle domain (superior His electrogram) was high in amplitude at basic beats and long coupling intervals (i.e., fast pathway conduction) and low amplitude at short prematurities (i.e., slow pathway conduction). In contrast, His electrogram recorded from the inferior His bundle domain (inferior His electrogram) was always from low amplitude during fast pathway conduction to high amplitude during slow pathway conduction. The characteristic His electrogram alternans had been recorded in vivo in all six animals. CONCLUSIONS: This study provided the first data representing in vivo recording of Zhang's phenomenon (His electrogram alternans) in large animals. Clinical studies are needed before this novel index can be applied in patients.
BACKGROUND: Zhang's phenomenon (originally His electrogram alternans) is a new index of atrioventricular node dual pathway electrophysiology. This index has been described and validated in isolated hearts in vitro, but has not been recorded in vivo. METHODS: This study explored the feasibility of in vivo recording of Zhang's phenomenon (His electrogram alternans) in six dogs with a custom-built bipolar electrode. RESULTS: The His electrogram recorded from superior His bundle domain (superior His electrogram) was high in amplitude at basic beats and long coupling intervals (i.e., fast pathway conduction) and low amplitude at short prematurities (i.e., slow pathway conduction). In contrast, His electrogram recorded from the inferior His bundle domain (inferior His electrogram) was always from low amplitude during fast pathway conduction to high amplitude during slow pathway conduction. The characteristic His electrogram alternans had been recorded in vivo in all six animals. CONCLUSIONS: This study provided the first data representing in vivo recording of Zhang's phenomenon (His electrogram alternans) in large animals. Clinical studies are needed before this novel index can be applied in patients.
Authors: William J Hucker; Vinod Sharma; Vladimir P Nikolski; Igor R Efimov Journal: Am J Physiol Heart Circ Physiol Date: 2007-05-11 Impact factor: 4.733
Authors: Youhua Zhang; Saroja Bharati; Rabi Sulayman; Kent A Mowrey; Patrick J Tchou; Todor N Mazgalev Journal: Cardiovasc Res Date: 2004-01-01 Impact factor: 10.787