This thesis presents a finite element methodology for simulating fluid–solid interactions in the left ventricle (LV) under LVAD support. The developed model was utilised to study the passive and active characteristics of ventricular function in anatomically accurate LV geometries constructed from normal and patient image data.A non–conforming ALE Navier–Stokes/finite–elasticity fluid–solid coupling system formed the core of the numerical scheme, onto which several novel numerical additions were made. These included a fictitious domain (FD) Lagrange multiplier method to capture the interactions between immersed rigid bodies and encasing elastic solids (required for the LVAD cannula), as well as modifications to the Newton–Raphson/line search...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
This thesis presents a finite element methodology for simulating fluid–solid interactions in the lef...
LVAD implantation is often used to assist patients suffering heart failure. These devices profoundly...
Numerical simulations provide a unique approach for investigating the impact of left ventricular ass...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
For patient’s receiving mechanical circulatory support, malfunction of the left ventricular assist ...
This paper focuses on the interaction between a generic ventricular assist device (VAD) system and t...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computer simulation is emerging as a tool for increased understanding of normal heart function and c...
Heart disease is the leading cause of death in the world. Therefore, numerous studies are undertaken...
A Left Ventricular Assist Device (LVAD), is a mechanical pump designed to supplement circulatory req...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
This thesis presents a finite element methodology for simulating fluid–solid interactions in the lef...
LVAD implantation is often used to assist patients suffering heart failure. These devices profoundly...
Numerical simulations provide a unique approach for investigating the impact of left ventricular ass...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
For patient’s receiving mechanical circulatory support, malfunction of the left ventricular assist ...
This paper focuses on the interaction between a generic ventricular assist device (VAD) system and t...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computer simulation is emerging as a tool for increased understanding of normal heart function and c...
Heart disease is the leading cause of death in the world. Therefore, numerous studies are undertaken...
A Left Ventricular Assist Device (LVAD), is a mechanical pump designed to supplement circulatory req...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...
Computational models have become essential in predicting medical device efficacy prior to clinical s...