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Lead Reconstruction Using Artificial Neural Networks for Ambulatory ECG Acquisition

Alejandro Grande-Fidalgo, Javier Calpe, Mónica Redón, Carlos Millán-Navarro, Emilio Soria‐Olivas

2021Sensors37 citationsDOIOpen Access PDF

Abstract

One of the most powerful techniques to diagnose cardiovascular diseases is to analyze the electrocardiogram (ECG). To increase diagnostic sensitivity, the ECG might need to be acquired using an ambulatory system, as symptoms may occur during a patient's daily life. In this paper, we propose using an ambulatory ECG (aECG) recording device with a low number of leads and then estimating the views that would have been obtained with a standard ECG location, reconstructing the complete Standard 12-Lead System, the most widely used system for diagnosis by cardiologists. Four approaches have been explored, including Linear Regression with ECG segmentation and Artificial Neural Networks (ANN). The best reconstruction algorithm is based on ANN, which reconstructs the actual ECG signal with high precision, as the results bring a high accuracy (RMS Error < 13 μV and CC > 99.7%) for the set of patients analyzed in this paper. This study supports the hypothesis that it is possible to reconstruct the Standard 12-Lead System using an aECG recording device with less leads.

Topics & Concepts

Ambulatory ECGArtificial neural networkComputer scienceAmbulatoryArtificial intelligenceSet (abstract data type)Sensitivity (control systems)Pattern recognition (psychology)SIGNAL (programming language)Data miningMachine learningMedicineEngineeringInternal medicineElectronic engineeringProgramming languageECG Monitoring and AnalysisEEG and Brain-Computer InterfacesCardiac electrophysiology and arrhythmias
Lead Reconstruction Using Artificial Neural Networks for Ambulatory ECG Acquisition | Litcius