Evaluation of Personalised Canine Electromechanical Models

被引：1

作者：

Giffard-Roisin, Sophie ^{[1
]}

Marchesseau, Stephanie ^{[2
]}

Le Folgoc, Loic ^{[1
]}

Delingette, Herve ^{[1
]}

Sermesant, Maxime ^{[1
]}

机构：

[1] Inria, Asclepios Res Project, Sophia Antipolis, France

[2] NUS ASTAR, Clin Imaging Res Ctr, Singapore, Singapore

来源：

Statistical Atlases and Computational Models of the Heart: Imaging and Modelling Challenges | 2015年 / 8896卷

关键词：

D O I：

10.1007/978-3-319-14678-2_8

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

Cardiac modelling aims at understanding cardiac diseases and predicting cardiac responses to therapies. By generating the electrical propagation, the contraction and the mechanical response, we are able to simulate cardiac motion from non-invasive imaging techniques. Four healthy canine clinical data (left ventricles) were provided by the STACOM'2014 challenge. Our study is based on Bestel-Clement-Sorine mechanical modelling, while the electrophysiological phenomena is driven by an Eikonal model. Our model has been calibrated by a quantitative sensitivity study as well as a personalized automatic calibration. Results and comparison with clinical measures are shown in terms of left ventricular volume, flow, pressure and ejection fraction.

引用

页码：74 / 82

页数：9

共 50 条

[1] Virtual Pulmonary Valve Replacement Interventions with a Personalised Cardiac Electromechanical Model
Mansi, Tommaso
Andre, Barbara
Lynch, Michael
Sermesant, Maxime
Delingette, Herve
Boudjemline, Younes
Ayache, Nicholas
RECENT ADVANCES IN THE 3D PHYSIOLOGICAL HUMAN, 2009, : 75 - +
[2] Mapping and evaluation of cataract candidate genes in canine models
Hunter, LS
Sidjanin, D
Johnson, J
Zangerl, B
Galibert, F
Andre, C
Talamas, E
Acland, G
Aguirre, G
INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE, 2005, 46
[3] Electromechanical models of the ventricles
Trayanova, Natalia A.
Constantino, Jason
Gurev, Viatcheslav
AMERICAN JOURNAL OF PHYSIOLOGY-HEART AND CIRCULATORY PHYSIOLOGY, 2011, 301 (02): : H279 - H286
[4] Electromechanical models of nanoresonators
L. V. Shtukin
I. E. Berinskii
D. A. Indeitsev
N. F. Morozov
D. Yu. Skubov
Physical Mesomechanics, 2016, 19 : 248 - 254
[5] Electromechanical models of nanoresonators
Shtukin, L. V.
Berinskii, I. E.
Indeitsev, D. A.
Morozov, N. F.
Skubov, D. Yu.
PHYSICAL MESOMECHANICS, 2016, 19 (03) : 248 - 254
[6] CANINE MITRAL COMPLEX - ULTRASTRUCTURE AND ELECTROMECHANICAL PROPERTIES
FENOGLIO, JJ
BASSETT, AL
WIT, AL
WAGNER, BM
PHAM, TD
CIRCULATION RESEARCH, 1972, 31 (03) : 417 - &
[7] Driver models for personalised driving assistance
Lefevre, Stephanie
Carvalho, Ashwin
Gao, Yiqi
Tseng, H. Eric
Borrelli, Francesco
VEHICLE SYSTEM DYNAMICS, 2015, 53 (12) : 1705 - 1720
[8] Fuzzy Cognitive Logic Models for Diagnostics and Predictive Evaluation of the Health of Electromechanical Systems
Borisov, V. V.
Denisov, V. N.
Kurilin, S. P.
Luferov, V. S.
MECHANICS, RESOURCE AND DIAGNOSTICS OF MATERIALS AND STRUCTURES (MRDMS-2020): PROCEEDING OF THE 14TH INTERNATIONAL CONFERENCE ON MECHANICS, RESOURCE AND DIAGNOSTICS OF MATERIALS AND STRUCTURES, 2020, 2315
[9] Personalised Electromechanical Model of the Heart for the Prediction of the Acute Effects of Cardiac Resynchronisation Therapy
Sermesant, Maxime
Billet, Florence
Chabiniok, Radomir
Mansi, Tommaso
Chinchapatnam, Phani
Moireau, Philippe
Peyrat, Jean-Marc
Rhode, Kawal
Ginks, Matt
Lambiase, Pier
Arridge, Simon
Delingette, Herve
Sorine, Michel
Rinaldi, C. Aldo
Chapelle, Dominique
Razavi, Reza
Ayache, Nicholas
FUNCTIONAL IMAGING AND MODELING OF THE HEART, PROCEEDINGS, 2009, 5528 : 239 - +
[10] Personalised virtual brain models in epilepsy
Jirsa, Viktor
Wang, Huifang
Triebkorn, Paul
Hashemi, Meysam
Jha, Jayant
Gonzalez-Martinez, Jorge
Guye, Maxime
Makhalova, Julia
Bartolomei, Fabrice
LANCET NEUROLOGY, 2023, 22 (05): : 443 - 454

← 1 2 3 4 5 →