Optimization-based reconstruction of depolarization of the heart

Optimization-based reconstruction of depolarization of the heart

A new noninvasive method to obtain a priori data for solving the inverse problem of electrocardiography is suggested. The method employs a personalized 3D model of the patient built from MRI data and an electrophysiological model of the patient's heart (cellular automaton). The distribution of...

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Bibliographic Details
Published in:Computers in Cardiology, 2004 pp. 129 - 132
Main Authors: Farina, D., Skipa, O., Kaltwasser, C., Dossel, O., Bauer, W.R.
Format: Conference Proceeding
Language:English
Published: IEEE 2004
Subjects:
Automata
Biomedical engineering
Biomedical measurements
Conductors
Electrocardiography
Heart
Inverse problems
Myocardium
Thorax
Voltage
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Summary:A new noninvasive method to obtain a priori data for solving the inverse problem of electrocardiography is suggested. The method employs a personalized 3D model of the patient built from MRI data and an electrophysiological model of the patient's heart (cellular automaton). The distribution of body surface potentials is calculated. The simulated ECG is "recorded" and compared with that measured for the patient. The parameter values of the cellular automaton are optimized in order to obtain the best possible correspondence between measured and simulated ECGs. The method provides a set of distributions of transmembrane voltages in the myocardium. These distributions can be used as a priori data for other types of inverse problems in electrocardiography. In this way valuable information about the cardiac electrical activity is obtained.
ISBN:0780389271
9780780389274
DOI:10.1109/CIC.2004.1442888