In this document the interplay of a single large heterogeneity in cardiac tissue and the excitation dynamics associated with ventricuar tachycardia is investigated. Methods from non-linear dynamics are used to investigate the behaviour of the system in phase space
A biomechanical simulation framework has been developed which allows to simulate the contraction of ...
dissertationImage-based biomechanics, particularly numerical modeling using subject-specific data ob...
Rotating spiral waves of electrical excitation underlie many dangerous cardiac arrhythmias. The hete...
Cardiac Arrhythmia is a leading cause of death in the western industrialized world. To date, multipl...
The beating of the heart is a synchronized contraction of muscle cells (myocytes) that are triggere...
The application of methods drawn from nonlinear and stochastic dynamics to the analysis of cardiovas...
AbstractBlood circulation is the result of the beating of the heart, which provides the mechanical f...
Every year 300,000 Americans die due to sudden cardiac death. There are many pathologies, acquired a...
This work is focused on different aspects within the loop of multiscale modeling: On the cellu...
The heart is a muscular organ that pumps blood throughout the body. The human heart contracts approx...
In this thesis we present and study overlapping additive Schwarz preconditioner for the isogeometric...
Defibrillation is termination of arrhythmias by altering the transmembrane voltage through the deliv...
Computer-aided therapy design is an intricate endeavor intertwining all scales from molecules to ce...
This thesis explores the electrical dynamics of the heart, and in particular, the mechanisms that un...
Cardiovascular disease is the most common cause of death in the modern society, and research into th...
A biomechanical simulation framework has been developed which allows to simulate the contraction of ...
dissertationImage-based biomechanics, particularly numerical modeling using subject-specific data ob...
Rotating spiral waves of electrical excitation underlie many dangerous cardiac arrhythmias. The hete...
Cardiac Arrhythmia is a leading cause of death in the western industrialized world. To date, multipl...
The beating of the heart is a synchronized contraction of muscle cells (myocytes) that are triggere...
The application of methods drawn from nonlinear and stochastic dynamics to the analysis of cardiovas...
AbstractBlood circulation is the result of the beating of the heart, which provides the mechanical f...
Every year 300,000 Americans die due to sudden cardiac death. There are many pathologies, acquired a...
This work is focused on different aspects within the loop of multiscale modeling: On the cellu...
The heart is a muscular organ that pumps blood throughout the body. The human heart contracts approx...
In this thesis we present and study overlapping additive Schwarz preconditioner for the isogeometric...
Defibrillation is termination of arrhythmias by altering the transmembrane voltage through the deliv...
Computer-aided therapy design is an intricate endeavor intertwining all scales from molecules to ce...
This thesis explores the electrical dynamics of the heart, and in particular, the mechanisms that un...
Cardiovascular disease is the most common cause of death in the modern society, and research into th...
A biomechanical simulation framework has been developed which allows to simulate the contraction of ...
dissertationImage-based biomechanics, particularly numerical modeling using subject-specific data ob...
Rotating spiral waves of electrical excitation underlie many dangerous cardiac arrhythmias. The hete...
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