The effect of volume conductor modeling on the estimation of cardiac vectors in fetal magnetocardiography

The effect of volume conductor modeling on the estimation of cardiac vectors in fetal magnetocardiography

Previous studies based on fetal magnetocardiographic (fMCG) recordings used simplified volume conductor models to estimate the fetal cardiac vector as an unequivocal measure of the cardiac source strength. However, the effect of simplified volume conductor modeling on the accuracy of the fMCG invers...

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Bibliographic Details
Published in:Physiological measurement Vol. 33; no. 4; p. 651
Main Authors: Tao, Rong, Popescu, Elena-Anda, Drake, William B, Jackson, David N, Popescu, Mihai
Format: Journal Article
Language:English
Published: England 01-04-2012
Subjects:
Computer Simulation
Electrocardiography
Female
Fetus - physiology
Heart - physiology
Humans
Magnetocardiography - methods
Models, Biological
Pregnancy
Statistics as Topic
Ultrasonography, Prenatal
Vernix Caseosa - physiology
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Summary:Previous studies based on fetal magnetocardiographic (fMCG) recordings used simplified volume conductor models to estimate the fetal cardiac vector as an unequivocal measure of the cardiac source strength. However, the effect of simplified volume conductor modeling on the accuracy of the fMCG inverse solution remains largely unknown. Aiming to determine the sensitivity of the source estimators to the details of the volume conductor model, we performed simulations using fetal-maternal anatomical information from ultrasound images obtained in 20 pregnant women in various stages of pregnancy. The magnetic field produced by a cardiac source model was computed using the boundary-element method for a piecewise homogeneous volume conductor with three nested compartments (fetal body, amniotic fluid and maternal abdomen) of different electrical conductivities. For late gestation, we also considered the case of a fourth highly insulating layer of vernix caseosa covering the fetus. The errors introduced for simplified volume conductors were assessed by comparing the reconstruction results obtained with realistic versus spherically symmetric models. Our study demonstrates the significant effect of simplified volume conductor modeling, resulting mainly in an underestimation of the cardiac vector magnitude and low goodness-of-fit. These findings are confirmed by the analysis of real fMCG data recorded in mid-gestation.
ISSN:1361-6579
DOI:10.1088/0967-3334/33/4/651