Predicting information about human physiology and pathophysiology from genomic data is a compelling, but unfulfilled goal of post-genomic biology. This is the aim of the so-called Physiome Project and is, undeniably, an ambitious goal. Yet if we can exploit even a small proportion of the rich and varied experimental data currently available, significant insights into clinically important aspects of human physiology will follow. To achieve this requires the integration of data from disparate sources into a common framework. Extrapolation of available data across species, laboratory techniques and conditions requires a quantitative approach. Mathematical models allow us to integrate molecular information into cellular, tissue and organ-level,...
The treatment of individual patients in cardiology practice increasingly relies on advanced imaging,...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...
Computational models are an absolutely necessary tool in many engineering disciplines. For example, ...
Bioengineering analyses of physiological systems use the computational solution of physical conserva...
Mathematical models of the cardiovascular system have come a long way since they were first introduc...
Successful physiological analysis requires an understanding of the functional interactions between t...
Multi-scale models of the heart and other organs are being developed under the umbrella of the Physi...
In this manuscript we review the state of cardiac cell modelling in the context of international ini...
Understanding the complexity of cardiac physiology requires system-level studies of multiple cardiac...
Computational modelling of biological processes and systems has witnessed a remarkable development i...
The overall aim of physiological research is to understand how living systems function in an integra...
We are currently witnessing the advent of a revolutionary new tool for biomed-ical research. Complex...
Traditional approaches to biomedical research are based on the subdivision of biological systems—by ...
Multiscale models of cardiac electromechanics are being increasingly focused on understanding how ge...
Abstract: Cardiac signaling networks exhibit considerable complexity in size and connectivity. The i...
The treatment of individual patients in cardiology practice increasingly relies on advanced imaging,...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...
Computational models are an absolutely necessary tool in many engineering disciplines. For example, ...
Bioengineering analyses of physiological systems use the computational solution of physical conserva...
Mathematical models of the cardiovascular system have come a long way since they were first introduc...
Successful physiological analysis requires an understanding of the functional interactions between t...
Multi-scale models of the heart and other organs are being developed under the umbrella of the Physi...
In this manuscript we review the state of cardiac cell modelling in the context of international ini...
Understanding the complexity of cardiac physiology requires system-level studies of multiple cardiac...
Computational modelling of biological processes and systems has witnessed a remarkable development i...
The overall aim of physiological research is to understand how living systems function in an integra...
We are currently witnessing the advent of a revolutionary new tool for biomed-ical research. Complex...
Traditional approaches to biomedical research are based on the subdivision of biological systems—by ...
Multiscale models of cardiac electromechanics are being increasingly focused on understanding how ge...
Abstract: Cardiac signaling networks exhibit considerable complexity in size and connectivity. The i...
The treatment of individual patients in cardiology practice increasingly relies on advanced imaging,...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...
Computational models are an absolutely necessary tool in many engineering disciplines. For example, ...