21.10.7.2 Cardiac Electrophysiology

Chapter Contents (Back)
Carciac. Electrophysiology. More general analysis, includes CT, MRI etc.
See also Heart Analysis, ECG, Electrocardiogram, Other Electrical Signals.
See also Heart, Cardiac Analysis using MRI Analysis, Cardiac MRI.

Montagnat, J., Sermesant, M., Delingette, H., Malandain, G., Ayache, N.J.,
Anisotropic filtering for model-based segmentation of 4D cylindrical echocardiographic images,
PRL(24), No. 4-5, February 2003, pp. 815-828.
Elsevier DOI 0211
BibRef

Sermesant, M.[Maxime], Konukoglu, E.[Ender], Delingette, H.[Hervé], Coudičre, Y.[Yves], Chinchapatnam, P.[Phani], Rhode, K.S.[Kawal S.], Razavi, R.S.[Reza S.], Ayache, N.J.[Nicholas J.],
An Anisotropic Multi-front Fast Marching Method for Real-Time Simulation of Cardiac Electrophysiology,
FIMH07(160-169).
Springer DOI 0706
BibRef

Vadakkumpadan, F., Arevalo, H., Ceritoglu, C., Miller, M., Trayanova, N.,
Image-Based Estimation of Ventricular Fiber Orientations for Personalized Modeling of Cardiac Electrophysiology,
MedImg(31), No. 5, May 2012, pp. 1051-1060.
IEEE DOI 1202
BibRef

Schwab, B.C., Seemann, G., Lasher, R.A., Torres, N.S., Wulfers, E.M., Arp, M., Carruth, E.D., Bridge, J.H.B., Sachse, F.B.,
Quantitative Analysis of Cardiac Tissue Including Fibroblasts Using Three-Dimensional Confocal Microscopy and Image Reconstruction: Towards a Basis for Electrophysiological Modeling,
MedImg(32), No. 5, May 2013, pp. 862-872.
IEEE DOI 1305
BibRef

Krueger, M.W., Seemann, G., Rhode, K., Keller, D.U.J., Schilling, C., Arujuna, A., Gill, J., O'Neill, M.D., Razavi, R., Dossel, O.,
Personalization of Atrial Anatomy and Electrophysiology as a Basis for Clinical Modeling of Radio-Frequency Ablation of Atrial Fibrillation,
MedImg(32), No. 1, January 2013, pp. 73-84.
IEEE DOI 1301
BibRef

Ukwatta, E., Arevalo, H., Li, K., Yuan, J., Qiu, W., Malamas, P., Wu, K.C., Trayanova, N.A., Vadakkumpadan, F.,
Myocardial Infarct Segmentation From Magnetic Resonance Images for Personalized Modeling of Cardiac Electrophysiology,
MedImg(35), No. 6, June 2016, pp. 1408-1419.
IEEE DOI 1606
Geometry BibRef

Rahimi, A., Sapp, J., Xu, J., Bajorski, P., Horacek, M., Wang, L.,
Examining the Impact of Prior Models in Transmural Electrophysiological Imaging: A Hierarchical Multiple-Model Bayesian Approach,
MedImg(35), No. 1, January 2016, pp. 229-243.
IEEE DOI 1601
Adaptation models BibRef

Dhamala, J., Arevalo, H.J., Sapp, J., Horacek, M., Wu, K.C., Trayanova, N.A., Wang, L.,
Spatially Adaptive Multi-Scale Optimization for Local Parameter Estimation in Cardiac Electrophysiology,
MedImg(36), No. 9, September 2017, pp. 1966-1978.
IEEE DOI 1709
bioelectric phenomena, biological tissues, parameter estimation, 3D distributed tissue properties, Electrocardiography, cardiac electro-physiological model, BibRef

Amindavar, H., Naraghi, F.,
Wavelet-based variational Bayesian ECG denoising,
IPRIA17(7-12)
IEEE DOI 1712
Bayes methods, electrocardiography, expectation-maximisation algorithm, matrix algebra, Wavelet transform BibRef

Mu, L.[Lide], Liu, H.F.[Hua-Feng],
Noninvasive electrocardiographic imaging with low-rank and non-local total variation regularization,
PRL(138), 2020, pp. 106-114.
Elsevier DOI 2010
ECG, Cardiac electrophysiology, Inverse, Sparsity BibRef


Abidi, Y.[Yassine], Bouyssier, J.[Julien], Mahjoub, M.[Moncef], Zemzemi, N.[Nejib],
Maximal Conductaances Ionic Parameters Estimation in Cardiac Electrophysiology Multiscale Modelling,
FIMH19(73-84).
Springer DOI 1906
BibRef

Gérard, A.[Antoine], Collin, A.[Annabelle], Bureau, G.[Gautier], Moireau, P.[Philippe], Coudičre, Y.[Yves],
Model Assessment Through Data Assimilation of Realistic Data in Cardiac Electrophysiology,
FIMH19(121-130).
Springer DOI 1906
BibRef

Ayed, I.[Ibrahim], Cedilnik, N.[Nicolas], Gallinari, P.[Patrick], Sermesant, M.[Maxime],
EP-Net: Learning Cardiac Electrophysiology Models for Physiology-Based Constraints in Data-Driven Predictions,
FIMH19(55-63).
Springer DOI 1906
BibRef

Bayraktar, F.[Furkan], Benson, A.P.[Alan P.], Holden, A.V.[Arun V.], Pervolaraki, E.[Eleftheria],
Transcriptomic Approaches to Modelling Long Term Changes in Human Cardiac Electrophysiology,
FIMH19(3-10).
Springer DOI 1906
BibRef

Cedilnik, N.[Nicolas], Duchateau, J.[Josselin], Sacher, F.[Frédéric], Jaďs, P.[Pierre], Cochet, H.[Hubert], Sermesant, M.[Maxime],
Fully Automated Electrophysiological Model Personalisation Framework from CT Imaging,
FIMH19(325-333).
Springer DOI 1906
BibRef

Lluch, Č.[Čric], Doste, R.[Rubén], Giffard-Roisin, S.[Sophie], This, A.[Alexandre], Sermesant, M.[Maxime], Camara, O.[Oscar], de Craene, M.[Mathieu], Morales, H.G.[Hernán G.],
Smoothed Particle Hydrodynamics for Electrophysiological Modeling: An Alternative to Finite Element Methods,
FIMH17(333-343).
Springer DOI 1706
BibRef

Giffard-Roisin, S.[Sophie], Delingette, H.[Hervé], Jackson, T.[Thomas], Fovargue, L.[Lauren], Lee, J.[Jack], Rinaldi, A.[Aldo], Ayache, N.[Nicholas], Razavi, R.[Reza], Sermesant, M.[Maxime],
Sparse Bayesian Non-linear Regression for Multiple Onsets Estimation in Non-invasive Cardiac Electrophysiology,
FIMH17(230-238).
Springer DOI 1706
BibRef

Molléro, R.[Roch], Neumann, D.[Dominik], Rohé, M.M.[Marc-Michel], Datar, M.[Manasi], Lombaert, H.[Hervé], Ayache, N.[Nicholas], Comaniciu, D.[Dorin], Ecabert, O.[Olivier], Chinali, M.[Marcello], Rinelli, G.[Gabriele], Pennec, X.[Xavier], Sermesant, M.[Maxime], Mansi, T.[Tommaso],
Propagation of Myocardial Fibre Architecture Uncertainty on Electromechanical Model Parameter Estimation: A Case Study,
FIMH15(448-456).
Springer DOI 1507
BibRef

Yang, H.[Huanhuan], Passerini, T.[Tiziano], Mansi, T.[Tommaso], Comaniciu, D.[Dorin],
Data-Driven Model Reduction for Fast, High Fidelity Atrial Electrophysiology Computations,
FIMH15(466-474).
Springer DOI 1507
BibRef

Collin, A., Chapelle, D., Moireau, P.,
Sequential State Estimation for Electrophysiology Models with Front Level-Set Data Using Topological Gradient Derivations,
FIMH15(402-411).
Springer DOI 1507
BibRef

Corrado, C.[Cesare], Williams, S.[Steven], Chubb, H.[Henry], O'Neill, M.[Mark], Niederer, S.A.[Steven A.],
Personalization of Atrial Electrophysiology Models from Decapolar Catheter Measurements,
FIMH15(21-28).
Springer DOI 1507
BibRef

Neher, P.[Peter], Barschdorf, H.[Hans], Dries, S.[Sebastian], Weber, F.M.[Frank M.], Krueger, M.W.[Martin W.], Dössel, O.[Olaf], Lorenz, C.[Cristian],
Automatic Segmentation of Cardiac CTs - Personalized Atrial Models Augmented with Electrophysiological Structures,
FIMH11(80-87).
Springer DOI 1105
BibRef

Boulakia, M., Gerbeau, J.F.,
Parameter Identification in Cardiac Electrophysiology Using Proper Orthogonal Decomposition Method,
FIMH11(315-322).
Springer DOI 1105
BibRef

Hoogendoorn, C.[Corné], Pashaei, A.[Ali], Sebastian, R.[Rafael], Sukno, F.M.[Federico M.], Cámara, O.[Oscar], Frangi, A.F.[Alejandro F.],
Sensitivity Analysis of Mesh Warping and Subsampling Strategies for Generating Large Scale Electrophysiological Simulation Data,
FIMH11(418-426).
Springer DOI 1105
BibRef

Pashaei, A.[Ali], Hoogendoorn, C.[Corné], Sebastián, R.[Rafael], Romero, D.[Daniel], Cámara, O.[Oscar], Frangi, A.F.[Alejandro F.],
Effect of Scar Development on Fast Electrophysiological Models of the Human Heart: In-Silico Study on Atlas-Based Virtual Populations,
FIMH11(427-436).
Springer DOI 1105
BibRef

Ma, Y.L.[Ying-Liang], King, A.P.[Andy P.], Gogin, N.[Nicolas], Gijsbers, G.[Geert], Rinaldi, C.A.[C. Aldo], Gill, J.[Jaswinder], Razavi, R.[Reza], Rhode, K.S.[Kawal S.],
Comparing Image-Based Respiratory Motion Correction Methods for Anatomical Roadmap Guided Cardiac Electrophysiology Procedures,
FIMH11(55-62).
Springer DOI 1105
BibRef

Wang, L.W.[Lin-Wei], Zhang, H.[Heye], Wong, K.C.L.[Ken C.L.], Liu, H.F.[Hua-Feng], Shi, P.C.[Peng-Cheng],
Noninvasive volumetric imaging of cardiac electrophysiology,
CVPR09(2176-2183).
IEEE DOI 0906
BibRef

Wang, L.W.[Lin-Wei], Wong, K.C.L.[Ken C.L.], Zhang, H.[Heye], Shi, P.C.[Peng-Cheng],
Dynamic structural-image-guided noninvasive volumetric cardiac electrophysiological mapping,
ICIP08(1428-1431).
IEEE DOI 0810
BibRef

Pop, M.[Mihaela], Sermesant, M.[Maxime], Chung, D.[Desmond], Liu, G.[Garry], McVeigh, E.R.[Elliot R.], Crystal, E.[Eugene], Wright, G.A.[Graham A.],
An Experimental Framework to Validate 3D Models of Cardiac Electrophysiology Via Optical Imaging and MRI,
FIMH07(100-109).
Springer DOI 0706
BibRef

Zhang, H.[Heye], Wang, L.W.[Lin-Wei], Shi, P.C.[Peng-Cheng],
Simulations of Cardiac Electrophysiological Activities Using a Heart-Torso Model,
FIMH07(150-159).
Springer DOI 0706
BibRef

Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Photoplethysmography, Heart Rate, Pulse Rate Analysis, Vital Signs, Non-Contact Methods .


Last update:Mar 16, 2024 at 20:36:19