DocumentCode
2369427
Title
Estimation of 3-D conduction velocity vector fields from cardiac mapping data
Author
Barnette, Ar ; Bayly, PV ; Zhang, S. ; Walcott, Gp ; Ideker, RE ; Smith, WM
Author_Institution
Washington Univ., St. Louis, MO, USA
fYear
1998
fDate
13-16 Sep 1998
Firstpage
605
Lastpage
608
Abstract
A method was developed to estimate three-dimensional (3-D) conduction velocity vector fields in cardiac tissue. The technique was applied to sinus rhythm and pacing mapped with plunge needles at 396-466 sites in the canine myocardium. The speed and direction of propagation was found from polynomial “surfaces” fitted to space-time (x,y,z,t) coordinates of cardiac activity (a generalization of a prior 2-D method). Conduction velocity under ischemic conditions was examined after occlusion of the circumflex (CFX). Estimates of conduction speeds during pacing and ischemia were slower than those found during normal sinus rhythm. Vector field directions were also found to differ between different types of beats. The method was validated on simulated 3-D plane and spherical waves. The proposed approach to completing velocity vector fields provides automated qualitative and quantitative description of electrical activity in 3-D tissue
Keywords
biological tissues; electrocardiography; medical signal processing; polynomials; surface fitting; time series; 3-D conduction velocity vector fields; ECG; canine myocardium; cardiac activity; cardiac mapping data; cardiac tissue; circumflex occlusion; direction of propagation; dot product; ischemic conditions; plunge needles; polynomial surfaces; robust technique; simulated 3-D plane waves; simulated 3-D spherical waves; sinus rhythm and pacing; space-time coordinates; speed of propagation; Cardiac tissue; Computational modeling; Dogs; Electrodes; Heart; Ischemic pain; Myocardium; Needles; Polynomials; Rhythm;
fLanguage
English
Publisher
ieee
Conference_Titel
Computers in Cardiology 1998
Conference_Location
Cleveland, OH
ISSN
0276-6547
Print_ISBN
0-7803-5200-9
Type
conf
DOI
10.1109/CIC.1998.731946
Filename
731946
Link To Document