Classifying Cases of Fetal Wolff-Parkinson-White Syndrome by Estimating the Accessory Pathway from Fetal Magnetocardiograms

Overview

Journal Med Biol Eng Comput

Publisher Springer

Specialties Biomedical Engineering
Medical Informatics

Date 2003 Feb 8

PMID 12572745

Citations 2

Authors

A Kandori

T Hosono

Y Chiba

M Shinto

S Miyashita

M Murakami

T Miyashita

K Ogata

K Tsukada

Affiliations

Soon will be listed here.

Abstract

The paper presents an evaluation of the possibility of using fetal magnetocardiogram (FMCG) signals to estimate and classify the accessory pathway in fetal Wolff-Parkinson-White (WPW) syndrome. The FMCG signals of two fetuses with WPW syndrome (type A) were detected using a 64-channel superconducting quantum-interference device system. An average across the cycles of these signals was taken to obtain clear WPW signals. To determine the direction and position of the accessory pathway in a fetal heart accurately, the accessory pathway and activated pathway at the peak of the QRS complex thus obtained were estimated for each fetus, using a single-dipole model. The phase angle (about 90 degrees) between the equivalent current dipoles (ECDs) was the same for both fetuses. This angle suggested that the accessory pathway is in the left side of the heart, i.e. that the pathway exists in the left ventricle, which indicates type A WPW syndrome. Identification of the position of the accessory pathway in a fetus with WPW syndrome from the angle between the ECD of the accessory pathway and the ECD of the peak in the QRS complex was thus demonstrated.

Citing Articles

Visualization of three-dimensional cardiac electrical excitation using standard heart model and anterior and posterior magnetocardiogram.

Ogata K, Kandori A, Miyashita T, Tsukada K, Nakatani S, Shimizu W Int J Cardiovasc Imaging. 2006; 22(3-4):581-93.

PMID: 16521045 DOI: 10.1007/s10554-005-9048-5.

Spatial filters based on independent component analysis for magnetic noise reduction in the magnetocardiogram.

Lee H, Park T, Lee S, Huh Y Med Biol Eng Comput. 2004; 42(4):532-4.

PMID: 15320463 DOI: 10.1007/BF02350995.

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