A method for magnetocardiography functional localization based on boundary element method and Nelder–Mead simplex algorithm

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Abstract

Background: The magnetocardiography (MCG) functional localization can transfer the biomagnetic signal to the electrical activity information inside the heart. The electrical activity is directly related to the physiological function of the heart. Methods: This study proposes a practical method for MCG functional localization based on the boundary element method (BEM) and the Nelder–Mead (NM) simplex algorithm. Single equivalent moving current dipole (SEMCD) is served as the equivalent cardiac source. The parameters of SEMCD are adapted using the NM simplex algorithm by fitting the measured MCG with the calculated MCG obtained based on BEM. The SEMCD parameters are solved in the sense that the difference between measured and calculated MCG is minimized. Results: The factors affecting the localization accuracy of this BEM–NM method were first explored with synthetic signals. Then, the results with real MCG signals show a good agreement between the SEMCD location and the region where ventricle depolarization starts, demonstrating the feasibility of this idea. Conclusions: This is the first three-dimensional localization of the onset of ventricular depolarization with the BEM–NM method. The method is promising in the noninvasive localization of lesions for heart diseases.

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Lu, Z., Jiang, D., & Yang, J. (2021). A method for magnetocardiography functional localization based on boundary element method and Nelder–Mead simplex algorithm. Annals of Noninvasive Electrocardiology, 26(6). https://doi.org/10.1111/anec.12879

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