Add to ORKGIn vitro assessment of different profiles for prosthetic mitral valves can result in better understanding of the physics of transmitral flow for each design. It has been postulated that decreasing the profile height of the mitral bioprosthetic valve has potential clinical benefit. In the present study, we compared the atrial and ventricular flow characteristics in different conditions using Carpentier-Edwards Perimount mitral valves with various profile heights. Each valve was placed at the intersection of the left ventricle, made of transparent silicone rubber, and the left atrium in Caltech's left heart pulsed flow simulator system. Digital particle image velocimetry has been used as the quantitative flow visualization technique. With the...
The relation between the geometrical orifice area (GOA) and the effective orifice area (EOA) of mitr...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
In vitro assessment of different profiles for prosthetic mitral valves can result in better understa...
Mechanical heart valves implanted in mitral position have a great effect on the ventricular flow. Ch...
OBJECTIVE: Echocardiographic particle image velocimetry is a new feature tracking-based approach to ...
Prior studies have shown that in a healthy heart, there exist a large asymmetric vortex structure th...
The non-invasive assessment of LV diastolic filling has focused particularly on determining the pat...
One of the major achievements in cardiac surgery over the past 30 years has been the ability to repl...
Thrombogenesis and hemolysis have both been linked to the flow dynamics past heart valve prostheses....
ObjectiveEchocardiographic particle image velocimetry is a new feature tracking–based approach to vi...
The understanding of the phenomena involved in ventricular flow is becoming more and more important ...
Recent approaches to the in vitro experimental study of cardiac fluid mechanics involve the use of w...
The relation between the geometrical orifice area (GOA) and the effective orifice area (EOA) of mitr...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
In vitro assessment of different profiles for prosthetic mitral valves can result in better understa...
Mechanical heart valves implanted in mitral position have a great effect on the ventricular flow. Ch...
OBJECTIVE: Echocardiographic particle image velocimetry is a new feature tracking-based approach to ...
Prior studies have shown that in a healthy heart, there exist a large asymmetric vortex structure th...
The non-invasive assessment of LV diastolic filling has focused particularly on determining the pat...
One of the major achievements in cardiac surgery over the past 30 years has been the ability to repl...
Thrombogenesis and hemolysis have both been linked to the flow dynamics past heart valve prostheses....
ObjectiveEchocardiographic particle image velocimetry is a new feature tracking–based approach to vi...
The understanding of the phenomena involved in ventricular flow is becoming more and more important ...
Recent approaches to the in vitro experimental study of cardiac fluid mechanics involve the use of w...
The relation between the geometrical orifice area (GOA) and the effective orifice area (EOA) of mitr...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...