Title :
Modulation of ECG atrial flutter wave amplitude by heart motion: A model-based and a bedside estimate
Author :
Jacquemet, V. ; Dube, B. ; van Dam, P. ; LeBlanc, A.R. ; Nadeau, R. ; Sturmer, M. ; Kus, T. ; Vinet, A.
Abstract :
This paper reports two attempts at estimating the magnitude of atrial flutter amplitude modulation caused by atrial motion during heart contraction. The first approach consists in analyzing the ECG of a patient in flutter with atrioventricular block and an implanted pacemaker. These conditions facilitate QRST cancellation, even in the presence of time-varying flutter wave amplitude. The second approach is based on a computer model of atrial flutter embedded in a torso model featuring predetermined motion of the atria. The results suggests that this lead-dependent effect is usually not large enough to preclude reasonably accurate QRST cancellation or T-wave extraction.
Keywords :
cardiovascular system; electrocardiography; feature extraction; medical signal processing; ECG atrial flutter wave amplitude modulation; QRST cancellation; T-wave extraction; atrial motion; atrioventricular block; bedside estimate; heart contraction; heart motion; implanted pacemaker; time-varying flutter wave amplitude; torso model; Computational modeling; Electrocardiography; Geometry; Heart; Lead; Mathematical model; Torso;
Conference_Titel :
Computing in Cardiology, 2010
Conference_Location :
Belfast
Print_ISBN :
978-1-4244-7318-2
