Surface electrocardiogram reconstruction from intracardiac electrograms using a dynamic time delay artificial neural network.

Fabienne Porée; Amar Kachenoura; Guy Carrault; Renzo Dal Molin; Philippe Mabo; Alfredo I. Hernandez

inserm-00747058, version 1

Surface electrocardiogram reconstruction from intracardiac electrograms using a dynamic time delay artificial neural network.
Porée F., Kachenoura A., Carrault G., Dal Molin R., Mabo P., Hernandez A. I.
IEEE Trans Biomed Eng 60, 1 (2013) 106-14 - http://www.hal.inserm.fr/inserm-00747058

PMID: identifiant
de la référence Pubmed :

(23086502)

titre :

Surface electrocardiogram reconstruction from intracardiac electrograms using a dynamic time delay artificial neural network.

auteur(s) :

Fabienne Porée (

) ¹, Amar Kachenoura¹, Guy Carrault¹, Renzo Dal Molin², Philippe Mabo^{1, 3, 4}, Alfredo Hernandez¹

laboratoire :

1 :	LTSI - Laboratoire Traitement du Signal et de l'Image

INSERM : U1099 – Université de Rennes 1

263, avenue du Général Leclerc 35042 rennes Cedex

France

2 :	Sorin CRM

http://www.sorin.com/

Sorin Group

Clamart, F-92140

France

3 :	CIC-IT - Dispositifs Diagnostic et Thérapeutiques

http://www.ltsi.univ-rennes1.fr/cit/

INSERM : CICIT 804

2 Rue Henri de Guilloux

France

4 :	Service de cardiologie et maladies vasculaires

http://www.chu-rennes.fr/

Hôpital Pontchaillou – Université de Rennes 1 – CHU Rennes

2 rue Henri Le Guilloux 35033 Rennes cedex 9

France

résumé :

This study proposes a method to facilitate the remote follow up of patients suffering from cardiac pathologies and treated with an implantable device, by synthesizing a 12-lead surface ECG from the intracardiac electrograms (EGM) recorded by the device. Two methods (direct and indirect), based on dynamic time-delay artificial neural networks (TDNNs) are proposed and compared with classical linear approaches. The direct method aims to estimate 12 different transfer functions between the EGM and each surface ECG signal. The indirect method is based on a preliminary orthogonalization phase of the available EGM and ECG signals, and the application of the TDNN between these orthogonalized signals, using only three transfer functions. These methods are evaluated on a dataset issued from 15 patients. Correlation coefficients calculated between the synthesized and the real ECG show that the proposed TDNN methods represent an efficient way to synthesize 12-lead ECG, from two or four EGM and perform better than the linear ones. We also evaluate the results as a function of the EGM configuration. Results are also supported by the comparison of extracted features and a qualitative analysis performed by a cardiologist.

domaine :

Sciences du Vivant/Ingénierie biomédicale

Sciences de l'ingénieur/Traitement du signal et de l'image

Informatique/Traitement du signal et de l'image

Sciences du Vivant/Médecine humaine et pathologie/Cardiologie et système cardiovasculaire

langue du texte
intégral :

Anglais

ISSN :

1558-2531

type de publication :

Articles dans des revues avec comité de lecture

DOI :

10.1109/TBME.2012.2225428

journal :

IEEE Trans Biomed Eng

Audience :

internationale

date de publication :

01/2013

date de publication
électronique :

18/10/2012

volume :

numéro :

page, identifiant, ... :

106-14

mots-clés auteur :

Implantable device – ECG reconstruction – Intracardiac electrogram – Time delay neural networks.

Liste des fichiers attachés à ce document :

PDF

TBME_Poree_7242012.pdf

(798.5 KB)


inserm-00747058, version 1
http://www.hal.inserm.fr/inserm-00747058
oai:www.hal.inserm.fr:inserm-00747058
Contributeur : Lotfi Senhadji <>
Soumis le : Mercredi 7 Novembre 2012, 09:33:03
Dernière modification le : Jeudi 21 Mars 2013, 16:31:50