A 2D axisymmetrical computer model is developed describing left ventricular (LV) flow during filling. The unsteady Navier-Stokes equations in a LV geometry with moving walls are solved. The relaxation mid compliance of the LV wall and the fluid-wall interaction are taken into account. The method is used Co simulate thee filling of a canine heart The computed results show intraventricular flow, and pressure patterns during filling. From a calculated colour M-mode Doppler echocardiogram, it can be seen that both early and atrial filling waves travel from base to apex. The maximal blood velocity during Che early filling wave is 70 cm/s and the propagation velocity of the filling wave which corresponds with the propagation? of a ring vortex, is...
Heart disease is the main cause of death today, and studying causes and treatments are of great inte...
Despite the advancement of cardiac imaging technologies, these have traditionally been limited to gl...
AbstractTo relate the subcellular molecular events to organ level physiology in heart, we have devel...
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...
Diagnosis of diastolic heart failure remains difficult in clinical practice. Noninvasive assessment ...
Non-invasive diagnosis of diastolic dysfunction remains difficult in clinical practice. Non-invasive...
In this paper, the hemodynamic characteristics inside a physiologically correct three-dimensional LV...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
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...
AbstractObjectives. This study was designed to evaluate the relation between the velocity of flow pr...
The cardiac cycle consists of two periods: (1) diastole, during which the heart muscle relaxes and r...
The study is to simulate blood flow processes in a human left ventricular (LV) via a combination of ...
Computer simulation is emerging as a tool for increased understanding of normal heart function and c...
Heart disease is the main cause of death today, and studying causes and treatments are of great inte...
Despite the advancement of cardiac imaging technologies, these have traditionally been limited to gl...
AbstractTo relate the subcellular molecular events to organ level physiology in heart, we have devel...
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...
Diagnosis of diastolic heart failure remains difficult in clinical practice. Noninvasive assessment ...
Non-invasive diagnosis of diastolic dysfunction remains difficult in clinical practice. Non-invasive...
In this paper, the hemodynamic characteristics inside a physiologically correct three-dimensional LV...
The fluid-structure coupled simulation of the heart, though at its developing stage, has shown great...
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...
AbstractObjectives. This study was designed to evaluate the relation between the velocity of flow pr...
The cardiac cycle consists of two periods: (1) diastole, during which the heart muscle relaxes and r...
The study is to simulate blood flow processes in a human left ventricular (LV) via a combination of ...
Computer simulation is emerging as a tool for increased understanding of normal heart function and c...
Heart disease is the main cause of death today, and studying causes and treatments are of great inte...
Despite the advancement of cardiac imaging technologies, these have traditionally been limited to gl...
AbstractTo relate the subcellular molecular events to organ level physiology in heart, we have devel...