Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy

M. Sermesant; F. Billet; R. Chabiniok; T. Mansi; P. Chinchapatnam; P. Moireau; J.M. Peyrat; K. Rhode; M. Ginks; P. Lambiase; S. Arridge; H. Delingette; M. Sorine; A. Rinaldi; D. Chapelle; R. Razavi; N. Ayache

doi:10.1007/978-3-642-01932-6_26

Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy

M. Sermesant, F. Billet, R. Chabiniok, T. Mansi, P. Chinchapatnam, P. Moireau, J.M. Peyrat, K. Rhode, M. Ginks, P. Lambiase, S. Arridge, H. Delingette, M. Sorine, A. Rinaldi, D. Chapelle, R. Razavi, N. Ayache

Research output: Chapter in Book/Report/Conference proceeding › Conference paper

19 Citations (Scopus)

Abstract

Cardiac resynchronisation therapy (CRT) has been shown to be an effective adjunctive treatment for patients with dyssynchronous ventricular contraction and symptoms of the heart failure. However, clinical trials have also demonstrated that up to 30% of patients may be classiﬁed as non-responders. In this article, we present how the personalisation of an electromechanical model of the myocardium could help the therapy planning for CRT. We describe the four main components of our myocardial model, namely the anatomy, the electrophysiology, the kinematics and the mechanics. For each of these components we combine prior knowledge and observable parameters in order to personalise these models to patient data. Then the acute effects of a pacemaker on the cardiac function are predicted with the in silico model on a clinical case. This is a proof of concept of the potential of virtual physiological models to better select and plan the therapy.

Original language	English
Title of host publication	Functional Imaging and Modeling of the Heart
Subtitle of host publication	5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings
Publisher	Springer
Pages	239-248
Number of pages	10
Volume	5528
DOIs	https://doi.org/10.1007/978-3-642-01932-6_26
Publication status	Published - 1 Jun 2009

Publication series

Name	Lecture Notes in Computer Science
Volume	5528
ISSN (Print)	0302-9743

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10.1007/978-3-642-01932-6_26

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Sermesant, M., Billet, F., Chabiniok, R., Mansi, T., Chinchapatnam, P., Moireau, P., Peyrat, J. M., Rhode, K., Ginks, M., Lambiase, P., Arridge, S., Delingette, H., Sorine, M., Rinaldi, A., Chapelle, D., Razavi, R., & Ayache, N. (2009). Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy. In Functional Imaging and Modeling of the Heart: 5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings (Vol. 5528, pp. 239-248). (Lecture Notes in Computer Science; Vol. 5528). Springer. https://doi.org/10.1007/978-3-642-01932-6_26

Sermesant, M. ; Billet, F. ; Chabiniok, R. et al. / Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy. Functional Imaging and Modeling of the Heart: 5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings. Vol. 5528 Springer, 2009. pp. 239-248 (Lecture Notes in Computer Science).

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title = "Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy",

abstract = "Cardiac resynchronisation therapy (CRT) has been shown to be an effective adjunctive treatment for patients with dyssynchronous ventricular contraction and symptoms of the heart failure. However, clinical trials have also demonstrated that up to 30% of patients may be classiﬁed as non-responders. In this article, we present how the personalisation of an electromechanical model of the myocardium could help the therapy planning for CRT. We describe the four main components of our myocardial model, namely the anatomy, the electrophysiology, the kinematics and the mechanics. For each of these components we combine prior knowledge and observable parameters in order to personalise these models to patient data. Then the acute effects of a pacemaker on the cardiac function are predicted with the in silico model on a clinical case. This is a proof of concept of the potential of virtual physiological models to better select and plan the therapy.",

author = "M. Sermesant and F. Billet and R. Chabiniok and T. Mansi and P. Chinchapatnam and P. Moireau and J.M. Peyrat and K. Rhode and M. Ginks and P. Lambiase and S. Arridge and H. Delingette and M. Sorine and A. Rinaldi and D. Chapelle and R. Razavi and N. Ayache",

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doi = "10.1007/978-3-642-01932-6_26",

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Sermesant, M, Billet, F, Chabiniok, R, Mansi, T, Chinchapatnam, P, Moireau, P, Peyrat, JM, Rhode, K , Ginks, M, Lambiase, P, Arridge, S, Delingette, H, Sorine, M, Rinaldi, A, Chapelle, D, Razavi, R & Ayache, N 2009, Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy. in Functional Imaging and Modeling of the Heart: 5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings. vol. 5528, Lecture Notes in Computer Science, vol. 5528, Springer, pp. 239-248. https://doi.org/10.1007/978-3-642-01932-6_26

Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy. / Sermesant, M.; Billet, F.; Chabiniok, R. et al.
Functional Imaging and Modeling of the Heart: 5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings. Vol. 5528 Springer, 2009. p. 239-248 (Lecture Notes in Computer Science; Vol. 5528).

Research output: Chapter in Book/Report/Conference proceeding › Conference paper

TY - CHAP

T1 - Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy

AU - Sermesant, M.

AU - Billet, F.

AU - Chabiniok, R.

AU - Mansi, T.

AU - Chinchapatnam, P.

AU - Moireau, P.

AU - Peyrat, J.M.

AU - Rhode, K.

AU - Ginks, M.

AU - Lambiase, P.

AU - Arridge, S.

AU - Delingette, H.

AU - Sorine, M.

AU - Rinaldi, A.

AU - Chapelle, D.

AU - Razavi, R.

AU - Ayache, N.

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N2 - Cardiac resynchronisation therapy (CRT) has been shown to be an effective adjunctive treatment for patients with dyssynchronous ventricular contraction and symptoms of the heart failure. However, clinical trials have also demonstrated that up to 30% of patients may be classiﬁed as non-responders. In this article, we present how the personalisation of an electromechanical model of the myocardium could help the therapy planning for CRT. We describe the four main components of our myocardial model, namely the anatomy, the electrophysiology, the kinematics and the mechanics. For each of these components we combine prior knowledge and observable parameters in order to personalise these models to patient data. Then the acute effects of a pacemaker on the cardiac function are predicted with the in silico model on a clinical case. This is a proof of concept of the potential of virtual physiological models to better select and plan the therapy.

AB - Cardiac resynchronisation therapy (CRT) has been shown to be an effective adjunctive treatment for patients with dyssynchronous ventricular contraction and symptoms of the heart failure. However, clinical trials have also demonstrated that up to 30% of patients may be classiﬁed as non-responders. In this article, we present how the personalisation of an electromechanical model of the myocardium could help the therapy planning for CRT. We describe the four main components of our myocardial model, namely the anatomy, the electrophysiology, the kinematics and the mechanics. For each of these components we combine prior knowledge and observable parameters in order to personalise these models to patient data. Then the acute effects of a pacemaker on the cardiac function are predicted with the in silico model on a clinical case. This is a proof of concept of the potential of virtual physiological models to better select and plan the therapy.

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DO - 10.1007/978-3-642-01932-6_26

M3 - Conference paper

VL - 5528

T3 - Lecture Notes in Computer Science

SP - 239

EP - 248

BT - Functional Imaging and Modeling of the Heart

PB - Springer

ER -

Sermesant M, Billet F, Chabiniok R, Mansi T, Chinchapatnam P, Moireau P et al. Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy. In Functional Imaging and Modeling of the Heart: 5th International Conference, FIMH 2009, Nice, France, June 3-5, 2009. Proceedings. Vol. 5528. Springer. 2009. p. 239-248. (Lecture Notes in Computer Science). doi: 10.1007/978-3-642-01932-6_26

Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy

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