Title :
Non-linear 12-lead ECG synthesis from two intracardiac recordings
Author :
Kachenoura, Amar ; Porée, F. ; Carrault, G. ; Hernández, A.I.
Author_Institution :
INSERM U642, Rennes, France
Abstract :
The objective of this study is to facilitate the home follow-up of patients with implantable cardiac devices. To do so, two methods to synthesize 12-lead ECG from two intracardiac EGM, based on dynamic Time Delay artificial Neural Networks are proposed: the direct and the indirect methods. The direct method aims to estimate 12 Transfer Functions (TF) between two EGM and each surface ECG. The indirect method is based on a preliminary orthogonalization phase of ECG and EGM signals, and then the application of the TDNN between these orthogonalized signals. Results, obtained on a dataset issued from 15 patients, suggest that the proposed methods (especially, the indirect method which provides faster results, minimizing data storage) represent an interesting and promising approach to synthesize 12-lead ECG from two EGM signals. Indeed, the correlation coefficients, between the real ECG and the synthesized ECG, lie between 0.76 and 0.99.
Keywords :
biomedical equipment; electrocardiography; medical computing; medical signal processing; neural nets; prosthetics; ECG signals; EGM signals; data storage; dynamic time delay artificial neural networks; implantable cardiac devices; intracardiac EGM; nonlinear 12-lead ECG synthesis; orthogonalization phase; transfer functions; Additive white noise; Artificial neural networks; Cardiology; Delay effects; Electrocardiography; Maximum likelihood detection; Principal component analysis; Signal synthesis; Surface morphology; Transfer functions;
Conference_Titel :
Computers in Cardiology, 2009
Conference_Location :
Park City, UT
Print_ISBN :
978-1-4244-7281-9
Electronic_ISBN :
0276-6547
