Cardiac Physiome Project

Predicting physiological behaviour from experimental data combined with environmental influences is a compelling, but unfulfilled, goal of post-genomic biology. This undeniably ambitious goal is the aim of the Physiome Project and its subset the Cardiome Project which is an international effort to build a biophysically based multi-scale mathematical model of the heart. To achieve this goal requires further development of the current generation of advanced cardiac models which span an already diverse set of mathematical representations from stochastic sub-cellular regulation models to whole-organ-based sets of coupled partial differential equations. The focus of this programme will be on the development and application of the mathematical techniques which underpin the ongoing extension of this approach, and specifically to: * integrate data from disparate sources into a common quantitative framework; * examine the complex cause and effect relationships which exist across many temporal and spatial orders of magnitude in physiology; * determine the appropriate level of detail to capture observable phenomena and the closely related issue of parameter identifiability; * examine issues of model inheritance and multi-scale coupling for combining existing models together to create extended frameworks; * define standards for the constituent electrical, mechanical and vascular classes of cardiac models. Read more at: www.newton.ac.uk/programmes/CPP/

Computational modelling to investigate the role of aging and species on arterial branch lesion patterns

Sherwin, S (Imperial College London) Wednesday 22 July 2009, 13:45-14:00

01-21
15:07

The Whole Heart

Kilner, P (Imperial College London) Thursday 23 July 2009, 14:15-14:30

08-04
14:43

The cardiac physiome: next steps

Hunter, P (Auckland) Friday 24 July 2009, 11:30-11:45

08-03
29:17

Closing comments

Smith, N (Oxford) Friday 24 July 2009, 11:45-12:00

07-29
08:56

CellML language and tools supporting the cardiac physiome

Nielsen, P (Auckland) Friday 24 July 2009, 10:45-11:00

07-29
20:22

Genetics meets multiscale modeling: the epistemic value of causally cohesive genotype-phenotype (cGP) models

Omholt, S (Norwegian Uni of Life Sciences) Friday 24 July 2009, 10:30-10:45

07-29
17:53

Building tissue mechanics into novel types of multi-scale models

Jensen, O (Nottingham) Friday 24 July 2009, 10:15-10:30

07-29
15:01

Integrative multilevel modular approach to modeling the cardiac physiome

Bassingthwaighte, J (Washington) Friday 24 July 2009, 09:30-10:15

07-29
50:57

Modeling cardiac growth and remodeling

Bovendeerd, P (TU, Eindhoven) Thursday 23 July 2009, 16:15-16:30

07-27
17:21

Image and physiological data fusion for cardiac biophysical modelling

Rhode, K (King's College London) Thursday 23 July 2009, 15:00-15:15

07-27
14:30

Adaptive Tetrahedral Meshing for Personalized Cardiac Simulations

Delingette, H (INRIA) Thursday 23 July 2009, 14:45-15:00

07-27
19:32

Towards patient-specific simulations of atrial fibrillation

Weber, F (Karlsruhe (TH)) Thursday 23 July 2009, 14:30-14:45

07-27
15:28

Translating biophysical models to the heart of the clinic

Razavi, R (King's College London) Thursday 23 July 2009, 13:30-14:15

07-27
41:56

Noninvasive volumetric substrate detection in post myocardial infarction

Shi, PC (RIT) Thursday 23 July 2009, 12:00-12:15

07-27
13:27

Intramural structure of coronary arteries and transmural distribution of coronary blood flow

Spaan, JAE (Academic Medical Center Amsterdam) Thursday 23 July 2009, 11:45-12:00

07-27
16:45

Physiology of the human heart: Do we really know it?

Efimov, I (Washington, St. Louis) Wednesday 22 July 2009, 10:15-10:30

07-27
17:04

The Cardiac Atlas Project, Progress Report July 2009

Young, A (Auckland) Thursday 23 July 2009, 11:30-11:45

07-27
17:31

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