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ORCID1st STACOM/CESC@MICCAI 2010: Beijing, China
- Oscar Camara, Mihaela Pop, Kawal S. Rhode, Maxime Sermesant, Nic Smith, Alistair A. Young:
Statistical Atlases and Computational Models of the Heart, First International Workshop, STACOM 2010, and Cardiac Electrophysiological Simulation Challenge, CESC 2010, Held in Conjunction with MICCAI 2010, Beijing, China, September 20, 2010. Proceedings. Lecture Notes in Computer Science 6364, Springer 2010, ISBN 978-3-642-15834-6
Keynote Presentations
- Mathieu De Craene, Federico Sukno
, Catalina Tobon-Gomez, Constantine Butakoff, Rosa M. Figueras i Ventura, Corné Hoogendoorn, Gemma Piella, Nicolas Duchateau, Emma Muñoz-Moreno, Rafael Sebastián:
Atlas Construction and Image Analysis Using Statistical Cardiac Models. 1-13 - Razvan Ioan Ionasec, Ingmar Voigt, Viorel Mihalef, Sasa Grbic, Dime Vitanovski, Yang Wang, Yefeng Zheng, Joachim Hornegger, Nassir Navab, Bogdan Georgescu:
Patient-Specific Modeling of the Heart: Applications to Cardiovascular Disease Management. 14-24 - Jürgen Weese, Jochen Peters, Carsten Meyer, Irina Wächter, Reinhard Kneser, Helko Lehmann, Olivier Ecabert, Hans Barschdorf, Raghed Hanna, Frank M. Weber:
The Generation of Patient-Specific Heart Models for Diagnosis and Interventions. 25-35
Methods and Infrastructure for Atlas Construction
- Carissa G. Fonseca, Michael Backhaus, Jae Do Chung, Wenchao Tao, Pau Medrano-Gracia, Brett R. Cowan, Peter J. Hunter, J. Paul Finn, Kalyanam Shivkumar, Joao A. C. Lima:
The Cardiac Atlas Project: Rationale, Design and Procedures. 36-45 - Pau Medrano-Gracia, Brett R. Cowan, J. Paul Finn, Carissa G. Fonseca, Alan H. Kadish, Daniel C. Lee, Wenchao Tao, Alistair A. Young:
The Cardiac Atlas Project: Preliminary Description of Heart Shape in Patients with Myocardial Infarction. 46-53 - Michael Backhaus, Randall Britten, Jae Do Chung, Brett R. Cowan, Carissa G. Fonseca, Pau Medrano-Gracia, Wenchao Tao, Alistair A. Young:
The Cardiac Atlas Project: Development of a Framework Integrating Cardiac Images and Models. 54-64 - Nicolas Duchateau, Mathieu De Craene, Gemma Piella, Corné Hoogendoorn, Etelvino Silva, Adelina Doltra, Lluís Mont, Ma Angeles Castel, Josep Brugada, Marta Sitges:
Atlas-Based Quantification of Myocardial Motion Abnormalities: Added-value for the Understanding of CRT Outcome? 65-74 - Ramón Casero, Rebecca Burton, T. Alexander Quinn, Christian Bollensdorff, Patrick Hales, Jürgen E. Schneider, Peter Kohl, Vicente Grau:
Towards High-Resolution Cardiac Atlases: Ventricular Anatomy Descriptors for a Standardized Reference Frame. 75-84
Structure and Flow
- Michal Depa, Mert R. Sabuncu, Godtfred Holmvang, Reza Nezafat, Ehud J. Schmidt, Polina Golland:
Robust Atlas-Based Segmentation of Highly Variable Anatomy: Left Atrium Segmentation. 85-94 - Kristin McLeod, Alfonso Caiazzo, Miguel A. Fernández, Tommaso Mansi, Irene E. Vignon-Clementel, Maxime Sermesant, Xavier Pennec, Younes Boudjemline, Jean-Frédéric Gerbeau:
Atlas-Based Reduced Models of Blood Flows for Fast Patient-Specific Simulations. 95-104 - YingLiang Ma, Simon G. Duckett, Phani Chinchapatnam, Anoop Shetty, C. Aldo Rinaldi, Tobias Schaeffter, Kawal S. Rhode:
Image and Physiological Data Fusion for Guidance and Modelling of Cardiac Resynchronization Therapy Procedures. 105-113 - Paula A. Rudenick, Maurizio Bordone, Bart H. Bijnens, Eduardo Soudah, Eugenio Oñate, David Garcia-Dorado, Arturo Evangelista:
A Multi-method Approach towards Understanding the Pathophysiology of Aortic Dissections - The Complementary Role of In-Silico, In-Vitro and In-Vivo Information. 114-123 - Jaume Garcia-Barnes, Debora Gil, Aura Hernandez:
Endowing Canonical Geometries to Cardiac Structures. 124-133 - Rashed Karim, Christoph Juli, Louisa Malcolme-Lawes, David Wyn-Davies, Prapa Kanagaratnam, Nicholas S. Peters, Daniel Rueckert:
Automatic Segmentation of Left Atrial Geometry from Contrast-Enhanced Magnetic Resonance Images Using a Probabilistic Atlas. 134-143 - Hoi Ieng Lam, Brett R. Cowan, Martyn P. Nash, Alistair A. Young:
Interactive Cardiac Image Analysis for Biventricular Function of the Human Heart. 144-153 - Ken C. L. Wong, Florence Billet, Tommaso Mansi, Radomír Chabiniok, Maxime Sermesant, Hervé Delingette, Nicholas Ayache:
Cardiac Motion Estimation Using a ProActive Deformable Model: Evaluation and Sensitivity Analysis. 154-163 - Vicky Y. Wang, Alistair A. Young, Martyn P. Nash:
Investigating Heart Failure Using Ventricular Imaging and Modelling. 164-173 - Christopher Casta, Patrick Clarysse, Jérôme Pousin, Joël Schaerer, Pierre Croisille, Yue-Min Zhu:
Incorporating Low-Level Constraints for the Retrieval of Personalised Heart Models from Dynamic MRI. 174-183 - Yang Wang, Bogdan Georgescu, Helene Houle, Dorin Comaniciu:
Volumetric Myocardial Mechanics from 3D+t Ultrasound Data with Multi-model Tracking. 184-193
Mechanics and Motion
- Vicky Y. Wang, Hoi Ieng Lam, Daniel B. Ennis, Brett R. Cowan, Alistair A. Young, Martyn P. Nash:
Cardiac Active Contraction Parameters Estimated from Magnetic Resonance Imaging. 194-203
Electrophysiology and Electrical Activation
- Heye Zhang, Bo Li, Pengcheng Shi, Qingmao Hu, Pheng-Ann Heng:
Recovering Cardiac Electrical Activity from Medical Image Sequence: A Model-Based Approach. 204-211 - Adityo Prakosa, Maxime Sermesant, Hervé Delingette, Eric Saloux, Pascal Allain, Pascal Cathier, Patrick Etyngier, Nicolas Villain, Nicholas Ayache:
Non-invasive Activation Times Estimation Using 3D Echocardiography. 212-221 - Rafael Sebastián, Elvio Heidenreich, Lydia Dux-Santoy, José Félix Rodríguez, Jose Maria Ferrero, Javier Saiz:
Modeling Drug Effects on Personalized 3D Models of the Heart: A Simulation Study. 222-231 - Linwei Wang, Ken C. L. Wong, Heye Zhang, Huafeng Liu, Pengcheng Shi:
How Much Geometrical Detail Do We Need in Cardiac Electrophysiological Imaging? A Generic Heart-Torso Representation for Fast Subject-Specific Customization. 232-241 - Corné Hoogendoorn, Ali Pashaei, Rafael Sebastián, Federico Sukno, Oscar Camara, Alejandro F. Frangi:
Influence of Geometric Variations on LV Activation Times: A Study on an Atlas-Based Virtual Population. 242-251
Computational Electrophysiological Simulation Challenge (CESC 2010)
- Pablo Lamata, Steven A. Niederer, Gernot Plank, Nic Smith:
Generic Conduction Parameters for Predicting Activation Waves in Customised Cardiac Electrophysiology Models. 252-260 - Linwei Wang, Ken C. L. Wong, Heye Zhang, Huafeng Liu, Pengcheng Shi:
A Statistical Physiological-Model-Constrained Framework for Computational Imaging of Subject-Specific Volumetric Cardiac Electrophysiology Using Optical Imaging and MRI Data. 261-269 - Jatin Relan, Mihaela Pop, Hervé Delingette, Graham A. Wright, Nicholas Ayache, Maxime Sermesant:
Estimation of Reaction, Diffusion and Restitution Parameters for a 3D Myocardial Model Using Optical Mapping and MRI. 270-280 - Oscar Camara, Ali Pashaei, Rafael Sebastián, Alejandro F. Frangi:
Personalization of Fast Conduction Purkinje System in Eikonal-Based Electrophysiological Models with Optical Mapping Data. 281-290
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