In this paper, the hemodynamic characteristics inside a physiologically correct three-dimensional LV model using fluid structure interaction scheme are examined under various heart beat conditions during early filling wave (E-wave), diastasis and atrial contraction wave (A-wave). The time dependent and incompressible viscous fluid, nonlinear viscous fluid and the stress tensor equations are coupled with the full Navier-Stoke's equations together with the Arbitrary Lagrangian-Eulerian and elasticity in the solid domain are used in the analysis. The results are discussed in terms of the variation in the intraventricular pressure, wall shear stress (WSS) and the fluid flow patterns inside the LV model. Moreover, changes in the magnitude of dis...
Abstract. Topics regarding flow inside deformable domains are here considered either for artery and ...
This thesis presents a finite element methodology for simulating fluid–solid interactions in the lef...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
A 2D axisymmetrical computer model is developed describing left ventricular (LV) flow during filling...
A 2D axisymmetrical computer model is developed describing left ventricular (LV) flow during filling...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
Non-invasive diagnosis of diastolic dysfunction remains difficult in clinical practice. Non-invasive...
The broad objective of the Doctoral research was to apply innovative engineering approaches to analy...
Diagnosis of diastolic heart failure remains difficult in clinical practice. Noninvasive assessment ...
Dilated cardiomyopathy (DCM) is the most common myocardial disease which not only leads to systolic ...
Analysis of the properties of the left ventricle flow during filling (diastole) is known to allow ea...
The left ventricle (LV) was modeled by two confocal ellipsoids truncated in a plane corresponding to...
AbstractTo relate the subcellular molecular events to organ level physiology in heart, we have devel...
Intraventricular pressure gradients were clinically demonstrated to represent one useful indicator ...
Dilated cardiomyopathy (DCM) is the most common myocardial disease. It not only leads to systolic dy...
Abstract. Topics regarding flow inside deformable domains are here considered either for artery and ...
This thesis presents a finite element methodology for simulating fluid–solid interactions in the lef...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...
A 2D axisymmetrical computer model is developed describing left ventricular (LV) flow during filling...
A 2D axisymmetrical computer model is developed describing left ventricular (LV) flow during filling...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
Non-invasive diagnosis of diastolic dysfunction remains difficult in clinical practice. Non-invasive...
The broad objective of the Doctoral research was to apply innovative engineering approaches to analy...
Diagnosis of diastolic heart failure remains difficult in clinical practice. Noninvasive assessment ...
Dilated cardiomyopathy (DCM) is the most common myocardial disease which not only leads to systolic ...
Analysis of the properties of the left ventricle flow during filling (diastole) is known to allow ea...
The left ventricle (LV) was modeled by two confocal ellipsoids truncated in a plane corresponding to...
AbstractTo relate the subcellular molecular events to organ level physiology in heart, we have devel...
Intraventricular pressure gradients were clinically demonstrated to represent one useful indicator ...
Dilated cardiomyopathy (DCM) is the most common myocardial disease. It not only leads to systolic dy...
Abstract. Topics regarding flow inside deformable domains are here considered either for artery and ...
This thesis presents a finite element methodology for simulating fluid–solid interactions in the lef...
The computational fluid dynamics of the heart represents a challenging task both in terms of mathema...