The effect of the aortic valve orientation on cavitation.

When implanting a mechanical aortic valve the annulus orientation is important with respect to turbulence. However, the effect on cavitation has not yet been investigated. The aim of this study was to investigate how cavitation is influenced hereof in vivo.

A method for the measurement of left ventricular overload for combined aortic valve pathology.

Background And Aim Of The Study: Patients with combined aortic valve pathology (stenosis and insufficiency) are often evaluated as if they had only a single pathology, because a means of evaluating the detrimental effects of combined insufficiency and stenosis does not yet exist. The study aim was to test the performance of a new hemodynamic index based on mechanical energy loss to measure the effects of combined valve disease on ventricular workload.

Methods: An intact and subsequently perforated and sutured aortic bioprosthesis was tested in an in vitro model of the left heart, varying cardiac output, average diastolic aortic pressure, and the type and combination of valve lesion.

A method for the measurement of left ventricular overload for aortic valve insufficiency.

Background: The degree of left ventricular overload in patients with aortic valve insufficiency (AI) plays an important role in determining the need and timing of surgical intervention. Because hemodynamic evaluation of AI may potentially predict the effects of an insufficient valve on the ventricle before they occur, it would be useful to guide valve surgery with such a diagnostic tool. The purpose of this study was to test the performance of a new hemodynamic index based on mechanical energy loss for the measurement of the effects of insufficiency on ventricular workload.

The effect of gap width on viscous stresses within the leakage across a bileaflet valve pivot.

Background And Aim Of The Study: Stresses of leakage flow may contribute to the increased tendency for thromboembolic complications in patients with mechanical valves. In bileaflet valves, leakage occurs primarily in the pivots, and the width of the pivot gap influences viscous stress magnitudes. The present study was conducted to investigate the effects of gap width on viscous stresses within the pivots of a bileaflet mitral valve during the leakage phase.

Changes in turbulence with rotation of the omnicarbon prosthesis.

This study was performed to determine whether annular plane orientation of the Omnicarbon aortic valve influences forward flow turbulence. The Omnicarbon prostheses was modified to allow in situ manual rotation of the valve when implanted in the aortic position of eight 90 kg pigs. Pulsed Doppler ultrasound was used to acquire velocity measurements at 17 locations within the cross-sectional area of the ascending aorta.

In-vivo turbulent stresses of bileaflet prosthesis leakage jets.

Background And Aim Of The Study: Previous studies of leakage jet turbulence have been carried out in vitro, using a Newtonian fluid to simulate blood and large, rigid approximations to the chambers of the heart. The study aim was to apply an in-vivo method of quantifying leakage jet turbulence to a variety of bileaflet mechanical heart valves, and thereafter to determine the effects of exercise and valve design on turbulent shear stresses within leakage flow.

Methods: Bileaflet prostheses sewn to a manual traversing device were implanted in the mitral position of 29 pigs of body weight ca.

An in vivo method for measuring turbulence in mechanical prosthesis leakage jets.

This work introduces a method for the in vivo measurement and analysis of turbulence within the leakage of a mechanical heart valve. Several analysis techniques were applied to ultrasound measurements acquired within the atrium of a pig, and error associated with these techniques was analyzed. The technique chosen applies cyclic averaging to mean and maximum velocity measurements within small, normalized phase windows to calculate Reynolds normal stresses in the direction of the ultrasound beam.

Cavitation caused by mechanical heart valve prostheses--a review.

Heart valve dysfunction often necessitates surgical implantation of a mechanical heart valve (MHV). Although implantation of a MHV is a life-saving procedure, the patient still faces potentially complications such as thromboembolic events and material failure. These complications may be caused by cavitation, which can occur during valve closure.

An analysis of turbulent shear stresses in leakage flow through a bileaflet mechanical prostheses.

In this work, estimates of turbulence were made from pulsatile flow laser Doppler velocimetry measurements using traditional phase averaging and averaging after the removal of cyclic variation. These estimates were compared with estimates obtained from steady leakage flow LDV measurements and an analytical method. The results of these studies indicate that leakage jets which are free and planar in shape may be more unstable than other leakage jets, and that cyclic variation does not cause a gross overestimation of the Reynolds stresses at large distances from the leakage jet orifice.