Models of cardiac mechanics require a well‐defined reference geometry from which deformations and hence myocardial strain and stress can be calculated. In the in vivo beating heart, the load‐free (LF) geometry generally cannot be measured directly, since, in many cases, there is no stage at which the lumen pressures and contractile state are all zero. Therefore, there is a need for an efficient method to estimate the LF geometry, which is essential for an accurate mechanical simulation of left ventricular (LV) mechanics, and for estimations of passive and contractile constitutive parameters of the heart muscle. In this paper, we present a novel method for estimating both the LF geometry and the passive stiffness of the myocardium. A linear ...
A central problem in biomechanical studies of personalized human left ventricular (LV) modelling is ...
Finite strain analyses of the left ventricle provide important information on heart function and hav...
International audiencePatient-specific modelling has emerged as a tool for studying heart function, ...
Models of cardiac mechanics require a well‐defined reference geometry from which deformations and he...
We sought to calibrate mechanical properties of left ventricle (LV) based on three-dimensional (3D) ...
An increasingly important research area within the field of cardiac modelling is the development and...
Assessment of left ventricular (LV) deformation is essential for clinical evaluation of LV function ...
Detailed models of the biomechanics of the heart are important both for developing improved interven...
International audienceImportance of material parameters and strain energy function on the wall stres...
Identification of in vivo passive biomechanical properties of healthy human myocardium from regular ...
Current methods of echocardiography provide detailed information about heart wall motion during the ...
Combining biomechanical modelling of left ventricular (LV) function and dysfunction with cardiac mag...
International audiencePost-myocardial infarction remodeling process is known to alter the mechanical...
A central problem in biomechanical studies of personalized human left ventricular (LV) modelling is ...
Finite strain analyses of the left ventricle provide important information on heart function and hav...
International audiencePatient-specific modelling has emerged as a tool for studying heart function, ...
Models of cardiac mechanics require a well‐defined reference geometry from which deformations and he...
We sought to calibrate mechanical properties of left ventricle (LV) based on three-dimensional (3D) ...
An increasingly important research area within the field of cardiac modelling is the development and...
Assessment of left ventricular (LV) deformation is essential for clinical evaluation of LV function ...
Detailed models of the biomechanics of the heart are important both for developing improved interven...
International audienceImportance of material parameters and strain energy function on the wall stres...
Identification of in vivo passive biomechanical properties of healthy human myocardium from regular ...
Current methods of echocardiography provide detailed information about heart wall motion during the ...
Combining biomechanical modelling of left ventricular (LV) function and dysfunction with cardiac mag...
International audiencePost-myocardial infarction remodeling process is known to alter the mechanical...
A central problem in biomechanical studies of personalized human left ventricular (LV) modelling is ...
Finite strain analyses of the left ventricle provide important information on heart function and hav...
International audiencePatient-specific modelling has emerged as a tool for studying heart function, ...