QT interval time lag in response to heart rate changes during stress test for Coronary Artery Disease diagnosis

Cristina Pérez; Esther Pueyo; Juan Pablo Martínez; Jari Viik; Pablo Laguna

doi:10.1016/j.bspc.2023.105056

QT interval time lag in response to heart rate changes during stress test for Coronary Artery Disease diagnosis

Cristina Pérez^*
, Esther Pueyo
, Juan Pablo Martínez
, Jari Viik
, Pablo Laguna

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

8 Citations (Scopus)

14 Downloads (Pure)

Abstract

Background: : Slow adaptation of the QT interval to abrupt changes in heart rate (HR) can enhance ventricular heterogeneity and has been suggested as a marker of arrhythmic risk. Most investigations on QT rate adaptation lag have been performed in response to step-like HR changes. However, abrupt HR changes are difficult to induce or observe in ECG recordings under ambulatory conditions. Objective: We aim to evaluate the power of indices related to the QT lag in response to ramp-like HR changes in stress test to assess CAD risk. Methods: We quantified the lag between the actual QT series and the memoryless expected QT series, which was obtained by fitting a hyperbolic regression model to the instantaneous QT and HR measurements in stages where their behavior could be assumed stationary. The proposed methodology was applied to analyze ECG stress tests of a subset of 448 patients presenting different risk levels for Coronary Artery Disease (CAD). The QT lag was estimated separately in the exercise and recovery phases. Results: An increase in the estimated QT lag during exercise (from 25 to 36 s) and a decrease during recovery (from 57 to 39 s) were associated with higher CAD risk. The difference between these lags showed significant capacity for CAD risk stratification. Conclusion: The QT lag in response to HR changes can be quantified from a stress test. QT lag values in response to ramp-like HR changes are in ranges comparable to those quantified from abrupt HR changes and show clinical significance to stratify CAD risk.

Original language	English
Article number	105056
Number of pages	13
Journal	Biomedical Signal Processing and Control
Volume	86
Issue number	Part A
DOIs	https://doi.org/10.1016/j.bspc.2023.105056
Publication status	Published - Sept 2023
Publication type	A1 Journal article-refereed

Funding

This work was supported by projects PID2019-104881RB-I00, PID2019-105674RB-I00, and TED2021-130459B-I00 funded by Spanish Ministry of Science and Innovation (MICINN), Spain and FEDER , by Gobierno de Aragón (Reference Group Biomedical Signal Interpretation and Computational Simulation (BSICoS) T39-23R and project LMP94_21) cofunded by FEDER 2014–2020 “Building Europe from Aragón” and by European Research Council (project ERC-StG 638284). The computation was performed at the High Performance computing platform of the NANBIOSIS ICTS. C. Pérez would like to thank the support from Gobierno de Aragón with a personal PhD grant, IIU/796/2019 .

Keywords

Coronary Artery Disease
Electrocardiogram
Periodic component analysis
QT-RR relationship
Stress test
Sudden Cardiac Death

Publication forum classification

Publication forum level 1

ASJC Scopus subject areas

Signal Processing
Biomedical Engineering
Health Informatics

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1-s2.0-S1746809423004895-mainFinal published version, 1.66 MBLicence: CC BY-NC-ND

https://urn.fi/URN:NBN:fi:tuni-202307207247Licence: CC BY-NC-ND

Cite this

@article{a7a86d10bfb344ed8dfaa4e7046fd933,

title = "QT interval time lag in response to heart rate changes during stress test for Coronary Artery Disease diagnosis",

abstract = "Background: : Slow adaptation of the QT interval to abrupt changes in heart rate (HR) can enhance ventricular heterogeneity and has been suggested as a marker of arrhythmic risk. Most investigations on QT rate adaptation lag have been performed in response to step-like HR changes. However, abrupt HR changes are difficult to induce or observe in ECG recordings under ambulatory conditions. Objective: We aim to evaluate the power of indices related to the QT lag in response to ramp-like HR changes in stress test to assess CAD risk. Methods: We quantified the lag between the actual QT series and the memoryless expected QT series, which was obtained by fitting a hyperbolic regression model to the instantaneous QT and HR measurements in stages where their behavior could be assumed stationary. The proposed methodology was applied to analyze ECG stress tests of a subset of 448 patients presenting different risk levels for Coronary Artery Disease (CAD). The QT lag was estimated separately in the exercise and recovery phases. Results: An increase in the estimated QT lag during exercise (from 25 to 36 s) and a decrease during recovery (from 57 to 39 s) were associated with higher CAD risk. The difference between these lags showed significant capacity for CAD risk stratification. Conclusion: The QT lag in response to HR changes can be quantified from a stress test. QT lag values in response to ramp-like HR changes are in ranges comparable to those quantified from abrupt HR changes and show clinical significance to stratify CAD risk.",

keywords = "Coronary Artery Disease, Electrocardiogram, Periodic component analysis, QT-RR relationship, Stress test, Sudden Cardiac Death",

author = "Cristina P{\'e}rez and Esther Pueyo and Mart{\'i}nez, \{Juan Pablo\} and Jari Viik and Pablo Laguna",

note = "Funding Information: This work was supported by projects PID2019-104881RB-I00, PID2019-105674RB-I00, and TED2021-130459B-I00 funded by Spanish Ministry of Science and Innovation (MICINN), Spain and FEDER , by Gobierno de Arag{\'o}n (Reference Group Biomedical Signal Interpretation and Computational Simulation (BSICoS) T39-23R and project LMP94\_21) cofunded by FEDER 2014–2020 “Building Europe from Arag{\'o}n” and by European Research Council (project ERC-StG 638284). The computation was performed at the High Performance computing platform of the NANBIOSIS ICTS. C. P{\'e}rez would like to thank the support from Gobierno de Arag{\'o}n with a personal PhD grant, IIU/796/2019 . Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = sep,

doi = "10.1016/j.bspc.2023.105056",

language = "English",

volume = "86",

journal = "Biomedical Signal Processing and Control",

issn = "1746-8094",

publisher = "Elsevier",

number = "Part A",

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TY - JOUR

T1 - QT interval time lag in response to heart rate changes during stress test for Coronary Artery Disease diagnosis

AU - Pérez, Cristina

AU - Pueyo, Esther

AU - Martínez, Juan Pablo

AU - Viik, Jari

AU - Laguna, Pablo

N1 - Funding Information: This work was supported by projects PID2019-104881RB-I00, PID2019-105674RB-I00, and TED2021-130459B-I00 funded by Spanish Ministry of Science and Innovation (MICINN), Spain and FEDER , by Gobierno de Aragón (Reference Group Biomedical Signal Interpretation and Computational Simulation (BSICoS) T39-23R and project LMP94_21) cofunded by FEDER 2014–2020 “Building Europe from Aragón” and by European Research Council (project ERC-StG 638284). The computation was performed at the High Performance computing platform of the NANBIOSIS ICTS. C. Pérez would like to thank the support from Gobierno de Aragón with a personal PhD grant, IIU/796/2019 . Publisher Copyright: © 2023 The Author(s)

PY - 2023/9

Y1 - 2023/9

N2 - Background: : Slow adaptation of the QT interval to abrupt changes in heart rate (HR) can enhance ventricular heterogeneity and has been suggested as a marker of arrhythmic risk. Most investigations on QT rate adaptation lag have been performed in response to step-like HR changes. However, abrupt HR changes are difficult to induce or observe in ECG recordings under ambulatory conditions. Objective: We aim to evaluate the power of indices related to the QT lag in response to ramp-like HR changes in stress test to assess CAD risk. Methods: We quantified the lag between the actual QT series and the memoryless expected QT series, which was obtained by fitting a hyperbolic regression model to the instantaneous QT and HR measurements in stages where their behavior could be assumed stationary. The proposed methodology was applied to analyze ECG stress tests of a subset of 448 patients presenting different risk levels for Coronary Artery Disease (CAD). The QT lag was estimated separately in the exercise and recovery phases. Results: An increase in the estimated QT lag during exercise (from 25 to 36 s) and a decrease during recovery (from 57 to 39 s) were associated with higher CAD risk. The difference between these lags showed significant capacity for CAD risk stratification. Conclusion: The QT lag in response to HR changes can be quantified from a stress test. QT lag values in response to ramp-like HR changes are in ranges comparable to those quantified from abrupt HR changes and show clinical significance to stratify CAD risk.

AB - Background: : Slow adaptation of the QT interval to abrupt changes in heart rate (HR) can enhance ventricular heterogeneity and has been suggested as a marker of arrhythmic risk. Most investigations on QT rate adaptation lag have been performed in response to step-like HR changes. However, abrupt HR changes are difficult to induce or observe in ECG recordings under ambulatory conditions. Objective: We aim to evaluate the power of indices related to the QT lag in response to ramp-like HR changes in stress test to assess CAD risk. Methods: We quantified the lag between the actual QT series and the memoryless expected QT series, which was obtained by fitting a hyperbolic regression model to the instantaneous QT and HR measurements in stages where their behavior could be assumed stationary. The proposed methodology was applied to analyze ECG stress tests of a subset of 448 patients presenting different risk levels for Coronary Artery Disease (CAD). The QT lag was estimated separately in the exercise and recovery phases. Results: An increase in the estimated QT lag during exercise (from 25 to 36 s) and a decrease during recovery (from 57 to 39 s) were associated with higher CAD risk. The difference between these lags showed significant capacity for CAD risk stratification. Conclusion: The QT lag in response to HR changes can be quantified from a stress test. QT lag values in response to ramp-like HR changes are in ranges comparable to those quantified from abrupt HR changes and show clinical significance to stratify CAD risk.

KW - Coronary Artery Disease

KW - Electrocardiogram

KW - Periodic component analysis

KW - QT-RR relationship

KW - Stress test

KW - Sudden Cardiac Death

U2 - 10.1016/j.bspc.2023.105056

DO - 10.1016/j.bspc.2023.105056

M3 - Article

AN - SCOPUS:85161674349

SN - 1746-8094

VL - 86

JO - Biomedical Signal Processing and Control

JF - Biomedical Signal Processing and Control

IS - Part A

M1 - 105056

ER -

QT interval time lag in response to heart rate changes during stress test for Coronary Artery Disease diagnosis

Abstract

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