… role in clinical precision therapies of cardiovascular diseases. A major obstacle hampering
… in electromechanics (EM) models are active mechanics parameters that govern cardiac …

… in developing an automated workflow for the creation of such … of a comprehensive
understanding of cardiac function. … tool that can efficiently probe cardiac physiology, provide a …

… Computational models of cardiac electromechanics (EM) are increasingly being applied to
… Illustration of typical workflow for generation of a personalized anatomical model of the heart …

… Computational tools could assist physicians in multiple steps of the clinical workflow … of heart
electromechanics have been developed. On the one hand, computational models of cardiac …

… heart model with three non-deforming states of the heart cycle (end-diastatic: before atrial
contraction, end-diastolic: after atrial contraction, and end-systolic: after ventricular contraction)…

… cardiovascular system. With this work, we provide an adaptable multi-scale model that allows
a comprehensive … Hence, efficient workflows are necessary to gain as much information as …

… Computational models of cardiac electromechanics can be … a more comprehensive
characterization of cardiac pathologies… will integrate artificial intelligence in their workflows. We …

… Our analysis provides a comprehensive assay of how cellular function can impact the whole
heart, and can be used to … Cardiac electromechanics models are increasingly used to study …

… a comprehensive finite element model (FEM) based whole-heart computational workflow …
The proposed FEM based whole-heart computational workflow offers an integrated platform …

… biomechanics models provide excellent opportunities to be integrated into clinical workflows…
organ-level cardiac electromechanics modelling, showing their integration with active and …