The investigation of the flow field generated by mechanical heart valve (MHV) is necessary to explain the relationship between the hemodynamic performance and hemolytic and thrombogenic complications in MHVs replacement. The flow dynamics in one cardiac cycle through a transparent bi-leaflet MHV model was investigated by Particle Image Velocimetry (PIV) technique.DOCTOR OF PHILOSOPHY (MPE
[[abstract]]Background and aim of study: Strong interactions are believed to exist between the pulsa...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
This research project is aimed towards a better understanding of the flow field structure of a bi-le...
[[abstract]]Fluid between the reducing flow channel of the valve occluder and the orifice wall tends...
[[abstract]]Particle Image Velocimetry (PIV) is an important technique in studying blood flow in hea...
A number of clinical, in vitro and computational studies have shown the potential for thromboembolic...
Effect of the mechanical type artificial mitral bi-leaflet valves on the ventricular flow field was ...
[[abstract]]Among the clinical complications of mechanical heart valves (MHVs), hemolysis was previo...
[[abstract]]Among the clinical complications of mechanical heart valves (MHVs), hemolysis was previo...
To restore proper function of the heart, diseased valves require repair or replacement. Mechanical h...
Since the first bi-leaflet mechanical heart valve (BMHV), St Jude Medical (SJM), was introduced for ...
In this research, extensive works were carried out to study the mechanics of the bi-leaflet mechanic...
Around 250,000 heart valve replacements are performed every year around the world. Due their higher ...
The hemodynamics associated with scale-up models of mechanical bileaflet heart valve prostheses with...
[[abstract]]Background and aim of study: Strong interactions are believed to exist between the pulsa...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
This research project is aimed towards a better understanding of the flow field structure of a bi-le...
[[abstract]]Fluid between the reducing flow channel of the valve occluder and the orifice wall tends...
[[abstract]]Particle Image Velocimetry (PIV) is an important technique in studying blood flow in hea...
A number of clinical, in vitro and computational studies have shown the potential for thromboembolic...
Effect of the mechanical type artificial mitral bi-leaflet valves on the ventricular flow field was ...
[[abstract]]Among the clinical complications of mechanical heart valves (MHVs), hemolysis was previo...
[[abstract]]Among the clinical complications of mechanical heart valves (MHVs), hemolysis was previo...
To restore proper function of the heart, diseased valves require repair or replacement. Mechanical h...
Since the first bi-leaflet mechanical heart valve (BMHV), St Jude Medical (SJM), was introduced for ...
In this research, extensive works were carried out to study the mechanics of the bi-leaflet mechanic...
Around 250,000 heart valve replacements are performed every year around the world. Due their higher ...
The hemodynamics associated with scale-up models of mechanical bileaflet heart valve prostheses with...
[[abstract]]Background and aim of study: Strong interactions are believed to exist between the pulsa...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
Artificial heart valves may dysfunction, leading to thrombus and/or pannus formations. Computational...
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