| Monday 20 July |
| 09:15-10:00 |
Noble, D (Oxford) |
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The cardiac physiome: how it began and where should it go | Sem 1 |
| 10:00-10:45 |
Vaughan-Jones, R (Oxford) |
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Connexins, buffers and mitochondria: novel pH/Ca2+ regulators in heart | Sem 1 |
| 10:45-11:00 |
Soeller, C (Auckland) |
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Quantitative fluorescence imaging with up to 30 nm resolution to provide 3D data for models of cardiac Ca2+ handling | Sem 1 |
| 11:30-11:45 |
Saucerman, J (Virginia) |
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Modeling ß1-adrenergic receptor blockers and polymorphisms in cardiac myocytes | Sem 1 |
| 11:45-12:00 |
Crampin, E (Auckland) |
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Modelling Ca2+ and InsP3-dependent hypertrophic signalling pathways in the heart | Sem 1 |
| 12:00-12:15 |
Jeneson, J (TU, Eindhoven) |
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Development and testing of Cardiac Physiome cell model parts in skeletal muscle | Sem 1 |
| 12:15-12:30 |
Beard, D (Medical College of Wisconsin) |
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Clinically observed phenomena on cardiac energetics in heart failure emerge from simulations of cardiac metabolism | Sem 1 |
| 13:30-14:15 |
Garfinkel, A (UCLA) |
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Mathematical concepts of cardiac arrhythmias | Sem 1 |
| 14:15-14:30 |
Bernus, O (Leeds) |
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Towards depth-resolved optical imaging of cardiac activity: insights from computational models | Sem 1 |
| 14:30-14:45 |
Boyett, M (Manchester) |
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Development of a virtual heart - Part l | Sem 1 |
| 14:45-15:00 |
Zhang, H (Manchester) |
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Development of a virtual heart - Part ll | Sem 1 |
| 15:30-15:45 |
Panfilov, S (Utrecht) |
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Electrophysiological metric and geometry of the heart | Sem 1 |
| 15:45-16:00 |
Cherry, E (Cornell) |
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Restitution curve splitting as a mechanism for the bifurcation to alternans | Sem 1 |
| 16:00-16:15 |
Holm, D (Imperial College London) |
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Optimal paths in cardiology | Sem 1 |
| 16:15-16:30 |
Sachse, F (Utah) |
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A novel approach to multidomain modeling of electrical conduction in cardiac tissue | Sem 1 |
| 16:30-16:45 |
Plank, G (Medizinische Universität Graz) |
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Using multiscale in-silico models of the heart for optimisation of anti-arrhythmia therapies | Sem 1 |
| Thursday 23 July |
| 09:30-10:15 |
Ayache, N (INRIA) |
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Towards personalization of cardiac models from medical images and signals | Sem 1 |
| 10:15-10:30 |
Frangi, A (Pompeu Fabra ) |
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Overview of statistical shape models for cardiac image analysis and modeling | Sem 1 |
| 10:30-10:45 |
LeGrice, I (Auckland) |
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Multi-scale volume imaging in animal models of disease | Sem 1 |
| 10:45-11:00 |
Smaill, B (Auckland) |
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Tissue-specific models of electrical activity in the heart: Multi-scale and Multi-dimensional approaches | Sem 1 |
| 11:30-11:45 |
Young, A (Auckland) |
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The Cardiac Atlas Project, Progress Report July 2009 | Sem 1 |
| 11:45-12:00 |
Spaan, JAE (Academic Medical Center Amsterdam) |
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Intramural structure of coronary arteries and transmural distribution of coronary blood flow | Sem 1 |
| 12:00-12:15 |
Shi, PC (RIT) |
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Integrative System Framework for Noninvasive Understanding of Myocardial Tissue Electrophysiology | Sem 1 |
| 13:30-14:15 |
Razavi, R (King's College London) |
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Translating biophysical models to the heart of the clinic | Sem 1 |
| 14:15-14:30 |
Kilner, P (Imperial College London) |
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The Whole Heart | Sem 1 |
| 14:30-14:45 |
Weber, F (Karlsruhe (TH)) |
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Towards patient-specific simulations of atrial fibrillation | Sem 1 |
| 14:45-15:00 |
Delingette, H (INRIA) |
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tba | Sem 1 |
| 15:00-15:15 |
Rhode, K (King's College London) |
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Image and physiological data fusion for cardiac biophysical modelling | Sem 1 |
| 15:45-16:00 |
Sermesant, M |
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Personalised electromechanical model of the heart for the prediction of the acute effects of cardiac resynchronisation therapy | Sem 1 |
| 16:00-16:15 |
Seemann, G (Karlsruhe (TH)) |
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Modeling of cardiac Ischemia in human myocytes and tissue including spatiotemporal electrophysiological variations | Sem 1 |
| 16:15-16:30 |
Bovendeerd, P (TU, Eindhoven) |
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Modeling cardiac growth and remodeling | Sem 1 |
