Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation

Machteld J Boonstra; Rob W Roudijk; Rolf Brummel; Wil Kassenberg; Lennart J Blom; Thom F Oostendorp; Anneline S J M Te Riele; Jeroen F van der Heijden; Folkert W Asselbergs; Peter Loh; Peter M van Dam

doi:https://doi.org/10.1007/s10439-022-02905-4

Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation

Machteld J Boonstra, Rob W Roudijk, Rolf Brummel, Wil Kassenberg, Lennart J Blom, Thom F Oostendorp, Anneline S J M Te Riele, Jeroen F van der Heijden, Folkert W Asselbergs, Peter Loh, Peter M van Dam

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

7 Citations (Scopus)

Abstract

Inverse electrocardiography (iECG) estimates epi- and endocardial electrical activity from body surface potentials maps (BSPM). In individuals at risk for cardiomyopathy, non-invasive estimation of normal ventricular activation may provide valuable information to aid risk stratification to prevent sudden cardiac death. However, multiple simultaneous activation wavefronts initiated by the His-Purkinje system, severely complicate iECG. To improve the estimation of normal ventricular activation, the iECG method should accurately mimic the effect of the His-Purkinje system, which is not taken into account in the previously published multi-focal iECG. Therefore, we introduce the novel multi-wave iECG method and report on its performance. Multi-wave iECG and multi-focal iECG were tested in four patients undergoing invasive electro-anatomical mapping during normal ventricular activation. In each subject, 67-electrode BSPM were recorded and used as input for both iECG methods. The iECG and invasive local activation timing (LAT) maps were compared. Median epicardial inter-map correlation coefficient (CC) between invasive LAT maps and estimated multi-wave iECG versus multi-focal iECG was 0.61 versus 0.31. Endocardial inter-map CC was 0.54 respectively 0.22. Modeling the His-Purkinje system resulted in a physiologically realistic and robust non-invasive estimation of normal ventricular activation, which might enable the early detection of cardiac disease during normal sinus rhythm.

Original language	English
Pages (from-to)	343-359
Number of pages	17
Journal	Annals of biomedical engineering
Volume	50
Issue number	3
DOIs	https://doi.org/10.1007/s10439-022-02905-4
Publication status	Published - Mar 2022
Externally published	Yes

Keywords

Cardiovascular imaging
Electro-anatomical mapping
Electrocardiographic imaging
Electrocardiography
Electrophysiology
Equivalent dipole layer
His-Purkinje system
Inverse electrocardiography
Non-invasive cardiac activation mapping

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https://doi.org/10.1007/s10439-022-02905-4

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Boonstra, M. J., Roudijk, R. W., Brummel, R., Kassenberg, W., Blom, L. J., Oostendorp, T. F., Te Riele, A. S. J. M., van der Heijden, J. F., Asselbergs, F. W., Loh, P., & van Dam, P. M. (2022). Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation. Annals of biomedical engineering, 50(3), 343-359. https://doi.org/10.1007/s10439-022-02905-4

@article{aab5842dcf6c4412b7599a47f7d5a0cd,

title = "Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation",

abstract = "Inverse electrocardiography (iECG) estimates epi- and endocardial electrical activity from body surface potentials maps (BSPM). In individuals at risk for cardiomyopathy, non-invasive estimation of normal ventricular activation may provide valuable information to aid risk stratification to prevent sudden cardiac death. However, multiple simultaneous activation wavefronts initiated by the His-Purkinje system, severely complicate iECG. To improve the estimation of normal ventricular activation, the iECG method should accurately mimic the effect of the His-Purkinje system, which is not taken into account in the previously published multi-focal iECG. Therefore, we introduce the novel multi-wave iECG method and report on its performance. Multi-wave iECG and multi-focal iECG were tested in four patients undergoing invasive electro-anatomical mapping during normal ventricular activation. In each subject, 67-electrode BSPM were recorded and used as input for both iECG methods. The iECG and invasive local activation timing (LAT) maps were compared. Median epicardial inter-map correlation coefficient (CC) between invasive LAT maps and estimated multi-wave iECG versus multi-focal iECG was 0.61 versus 0.31. Endocardial inter-map CC was 0.54 respectively 0.22. Modeling the His-Purkinje system resulted in a physiologically realistic and robust non-invasive estimation of normal ventricular activation, which might enable the early detection of cardiac disease during normal sinus rhythm.",

keywords = "Cardiovascular imaging, Electro-anatomical mapping, Electrocardiographic imaging, Electrocardiography, Electrophysiology, Equivalent dipole layer, His-Purkinje system, Inverse electrocardiography, Non-invasive cardiac activation mapping",

author = "Boonstra, {Machteld J} and Roudijk, {Rob W} and Rolf Brummel and Wil Kassenberg and Blom, {Lennart J} and Oostendorp, {Thom F} and {Te Riele}, {Anneline S J M} and {van der Heijden}, {Jeroen F} and Asselbergs, {Folkert W} and Peter Loh and {van Dam}, {Peter M}",

note = "Funding Information: Funding was provided by Hartstichting (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007) and UCLH Biomedical Research Centre. Funding Information: This work would not have been possible without the foundation provided by Adriaan van Oosterom. We keep you in our hearts. This work was supported by the Netherlands Cardiovascular Research Initiative, an initiative with support of the Dutch Heart Foundation (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007). Folkert Asselbergs is supported by UCL Hospitals NIHR Biomedical Research Centre. Funding Information: This work would not have been possible without the foundation provided by Adriaan van Oosterom. We keep you in our hearts. This work was supported by the Netherlands Cardiovascular Research Initiative, an initiative with support of the Dutch Heart Foundation (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007). Folkert Asselbergs is supported by UCL Hospitals NIHR Biomedical Research Centre. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = mar,

doi = "https://doi.org/10.1007/s10439-022-02905-4",

language = "English",

volume = "50",

pages = "343--359",

journal = "Annals of biomedical engineering",

issn = "0090-6964",

publisher = "Springer Netherlands",

number = "3",

}

Boonstra, MJ, Roudijk, RW, Brummel, R, Kassenberg, W, Blom, LJ, Oostendorp, TF, Te Riele, ASJM, van der Heijden, JF, Asselbergs, FW, Loh, P & van Dam, PM 2022, 'Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation', Annals of biomedical engineering, vol. 50, no. 3, pp. 343-359. https://doi.org/10.1007/s10439-022-02905-4

TY - JOUR

T1 - Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation

AU - Boonstra, Machteld J

AU - Roudijk, Rob W

AU - Brummel, Rolf

AU - Kassenberg, Wil

AU - Blom, Lennart J

AU - Oostendorp, Thom F

AU - Te Riele, Anneline S J M

AU - van der Heijden, Jeroen F

AU - Asselbergs, Folkert W

AU - Loh, Peter

AU - van Dam, Peter M

N1 - Funding Information: Funding was provided by Hartstichting (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007) and UCLH Biomedical Research Centre. Funding Information: This work would not have been possible without the foundation provided by Adriaan van Oosterom. We keep you in our hearts. This work was supported by the Netherlands Cardiovascular Research Initiative, an initiative with support of the Dutch Heart Foundation (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007). Folkert Asselbergs is supported by UCL Hospitals NIHR Biomedical Research Centre. Funding Information: This work would not have been possible without the foundation provided by Adriaan van Oosterom. We keep you in our hearts. This work was supported by the Netherlands Cardiovascular Research Initiative, an initiative with support of the Dutch Heart Foundation (Grant Numbers CVON2015-12 eDETECT and QRS-Vision 2018B007). Folkert Asselbergs is supported by UCL Hospitals NIHR Biomedical Research Centre. Publisher Copyright: © 2022, The Author(s).

PY - 2022/3

Y1 - 2022/3

N2 - Inverse electrocardiography (iECG) estimates epi- and endocardial electrical activity from body surface potentials maps (BSPM). In individuals at risk for cardiomyopathy, non-invasive estimation of normal ventricular activation may provide valuable information to aid risk stratification to prevent sudden cardiac death. However, multiple simultaneous activation wavefronts initiated by the His-Purkinje system, severely complicate iECG. To improve the estimation of normal ventricular activation, the iECG method should accurately mimic the effect of the His-Purkinje system, which is not taken into account in the previously published multi-focal iECG. Therefore, we introduce the novel multi-wave iECG method and report on its performance. Multi-wave iECG and multi-focal iECG were tested in four patients undergoing invasive electro-anatomical mapping during normal ventricular activation. In each subject, 67-electrode BSPM were recorded and used as input for both iECG methods. The iECG and invasive local activation timing (LAT) maps were compared. Median epicardial inter-map correlation coefficient (CC) between invasive LAT maps and estimated multi-wave iECG versus multi-focal iECG was 0.61 versus 0.31. Endocardial inter-map CC was 0.54 respectively 0.22. Modeling the His-Purkinje system resulted in a physiologically realistic and robust non-invasive estimation of normal ventricular activation, which might enable the early detection of cardiac disease during normal sinus rhythm.

AB - Inverse electrocardiography (iECG) estimates epi- and endocardial electrical activity from body surface potentials maps (BSPM). In individuals at risk for cardiomyopathy, non-invasive estimation of normal ventricular activation may provide valuable information to aid risk stratification to prevent sudden cardiac death. However, multiple simultaneous activation wavefronts initiated by the His-Purkinje system, severely complicate iECG. To improve the estimation of normal ventricular activation, the iECG method should accurately mimic the effect of the His-Purkinje system, which is not taken into account in the previously published multi-focal iECG. Therefore, we introduce the novel multi-wave iECG method and report on its performance. Multi-wave iECG and multi-focal iECG were tested in four patients undergoing invasive electro-anatomical mapping during normal ventricular activation. In each subject, 67-electrode BSPM were recorded and used as input for both iECG methods. The iECG and invasive local activation timing (LAT) maps were compared. Median epicardial inter-map correlation coefficient (CC) between invasive LAT maps and estimated multi-wave iECG versus multi-focal iECG was 0.61 versus 0.31. Endocardial inter-map CC was 0.54 respectively 0.22. Modeling the His-Purkinje system resulted in a physiologically realistic and robust non-invasive estimation of normal ventricular activation, which might enable the early detection of cardiac disease during normal sinus rhythm.

KW - Cardiovascular imaging

KW - Electro-anatomical mapping

KW - Electrocardiographic imaging

KW - Electrocardiography

KW - Electrophysiology

KW - Equivalent dipole layer

KW - His-Purkinje system

KW - Inverse electrocardiography

KW - Non-invasive cardiac activation mapping

UR - http://www.scopus.com/inward/record.url?scp=85123475747&partnerID=8YFLogxK

U2 - https://doi.org/10.1007/s10439-022-02905-4

DO - https://doi.org/10.1007/s10439-022-02905-4

M3 - Article

C2 - 35072885

SN - 0090-6964

VL - 50

SP - 343

EP - 359

JO - Annals of biomedical engineering

JF - Annals of biomedical engineering

IS - 3

ER -

Modeling the His-Purkinje Effect in Non-invasive Estimation of Endocardial and Epicardial Ventricular Activation

Abstract

Keywords

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