Precise T-wave endpoint detection using polynomial fitting and natural geometric approach algorithm

QT interval (QT) is defined as the distance between the beginning of the QRS complex and the end of the T-wave, and it reflects the time course of the ventricular depolarization and repolarization on the surface electrocardiogram (ECG). QT and its variability over time are modulated by the autonomic...

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Published in:	Biomedical signal processing and control Vol. 80; p. 104254
Main Authors:	Winkert, T., Benchimol-Barbosa, P.R., Nadal, J.
Format:	Journal Article
Language:	English
Published:	Elsevier Ltd 01.02.2023
Subjects:	Automated method Cartesian curvature Polynomial fitting QT interval T-wave T-wave endpoint QT interval Automated method ECG CGM TTI RMSD QTM T-wave endpoint Polynomial fitting Cartesian curvature RMS T-wave CGC
ISSN:	1746-8094, 1746-8108
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Abstract	QT interval (QT) is defined as the distance between the beginning of the QRS complex and the end of the T-wave, and it reflects the time course of the ventricular depolarization and repolarization on the surface electrocardiogram (ECG). QT and its variability over time are modulated by the autonomic nervous system and are related to arrhythmogenesis. A challenging task for appropriate QT assessment is the detection of the T-wave endpoint. This study proposes a novel automatic approach to correctly identify the T-wave endpoint. After the peak of the T-wave, it was assumed that the quasi-asymptotical hyperbolic waveform decay of the T-wave acutely bends to meet the ECG baseline and then smooths out onto the TP segment. The point showing the maximal baseline bending is usually assumed by the cardiologists as the T-wave endpoint. In this approach, the terminal portion of the T-wave was represented by a parsimonious-optimal order polynomial function, in which the Cartesian curvature was calculated. One hundred and one ECG records from Physionet QT Database were analyzed to investigate the performance of the method. A Cartesian Curvature-based method (CGM) was developed and applied for automated detection of the T-waves endpoints. Q-waves were also measured automatically. The QTs were calculated and compared with respective cardiologist manual marks provided by QT Database by Pearson's correlation and Bland-Altman charts. High correlation (Pearson's Correlation = 0.94; p < 0.001) between the novel approach and the reference marks, observed in all analyses, showed the method's suitability to identify T-wave endpoints. The CGM performs as the cognitive experience of the cardiologist and has a simple mathematical implementation, indicating to be a promising tool for QT interval assessment.
AbstractList	QT interval (QT) is defined as the distance between the beginning of the QRS complex and the end of the T-wave, and it reflects the time course of the ventricular depolarization and repolarization on the surface electrocardiogram (ECG). QT and its variability over time are modulated by the autonomic nervous system and are related to arrhythmogenesis. A challenging task for appropriate QT assessment is the detection of the T-wave endpoint. This study proposes a novel automatic approach to correctly identify the T-wave endpoint. After the peak of the T-wave, it was assumed that the quasi-asymptotical hyperbolic waveform decay of the T-wave acutely bends to meet the ECG baseline and then smooths out onto the TP segment. The point showing the maximal baseline bending is usually assumed by the cardiologists as the T-wave endpoint. In this approach, the terminal portion of the T-wave was represented by a parsimonious-optimal order polynomial function, in which the Cartesian curvature was calculated. One hundred and one ECG records from Physionet QT Database were analyzed to investigate the performance of the method. A Cartesian Curvature-based method (CGM) was developed and applied for automated detection of the T-waves endpoints. Q-waves were also measured automatically. The QTs were calculated and compared with respective cardiologist manual marks provided by QT Database by Pearson's correlation and Bland-Altman charts. High correlation (Pearson's Correlation = 0.94; p < 0.001) between the novel approach and the reference marks, observed in all analyses, showed the method's suitability to identify T-wave endpoints. The CGM performs as the cognitive experience of the cardiologist and has a simple mathematical implementation, indicating to be a promising tool for QT interval assessment.
ArticleNumber	104254
Author	Winkert, T. Benchimol-Barbosa, P.R. Nadal, J.
Author_xml	– sequence: 1 givenname: T. surname: Winkert fullname: Winkert, T. email: thaiswinkert@peb.ufrj.br organization: Biomedical Engineering Program, COPPE Institute, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil – sequence: 2 givenname: P.R. surname: Benchimol-Barbosa fullname: Benchimol-Barbosa, P.R. email: eagar@yahoo.com organization: Biomedical Engineering Program, COPPE Institute, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil – sequence: 3 givenname: J. surname: Nadal fullname: Nadal, J. email: jn@peb.ufrj.br organization: Biomedical Engineering Program, COPPE Institute, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil
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Snippet	QT interval (QT) is defined as the distance between the beginning of the QRS complex and the end of the T-wave, and it reflects the time course of the...
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SubjectTerms	Automated method Cartesian curvature Polynomial fitting QT interval T-wave T-wave endpoint
Title	Precise T-wave endpoint detection using polynomial fitting and natural geometric approach algorithm
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