An experimental apparatus simulating the velocity field downstream of an artificial heart valve in a model of the left ventricle was developed. In particular, the cardiac cycle was reproduced by a linear motor such that both healthy and unhealthy conditions could be reproduced. In this study, a one-way, hydraulic valve has been inserted in a mitralic orifice and a strong, uniform-velocity jet which enters the ventricle is generated. This condition is very similar to the inflow generated by the natural valve. To measure the velocity field the working fluid was seeded with tracer particles and the test section, the middle plane of the ventricle model, was lit by a laser light sheet. A long time image sequence of the flow field was acquired by...
Intra-cardiac blood flow imaging and visualization is challenging due to the processes involved in g...
A three-dimensional computational fluid dynamics (CFD) method has been developed to simulate the flo...
The spatiotemporal characteristics of the intraventricular flow field, and their evolution with time...
Measurements of the velocity field downstream of an artificial heart valve are performed by using pa...
Measurements of the velocity field downstream of an artificial heart valve are performed by using p...
The understanding of the phenomena involved in ventricular flow is becoming more and more important ...
Thrombogenesis and hemolysis have both been linked to the flow dynamics past heart valve prostheses....
The laboratory models of the human heart left ventricle developed in the last decades gave a valuabl...
A laboratory model reproducing the main characteristics of the heart pump was used to investigate th...
Unnatural dynamics of the notorious vortex in the left ventricle is often associated with cardiac di...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
We investigate the potential of prosthetic heart valves to generate abnormal flow and stress pattern...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
Intra-cardiac blood flow imaging and visualization is challenging due to the processes involved in g...
Abstract Mechanical heart valves implanted in mitral position modify deeply the ventricular flow dur...
Intra-cardiac blood flow imaging and visualization is challenging due to the processes involved in g...
A three-dimensional computational fluid dynamics (CFD) method has been developed to simulate the flo...
The spatiotemporal characteristics of the intraventricular flow field, and their evolution with time...
Measurements of the velocity field downstream of an artificial heart valve are performed by using pa...
Measurements of the velocity field downstream of an artificial heart valve are performed by using p...
The understanding of the phenomena involved in ventricular flow is becoming more and more important ...
Thrombogenesis and hemolysis have both been linked to the flow dynamics past heart valve prostheses....
The laboratory models of the human heart left ventricle developed in the last decades gave a valuabl...
A laboratory model reproducing the main characteristics of the heart pump was used to investigate th...
Unnatural dynamics of the notorious vortex in the left ventricle is often associated with cardiac di...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
We investigate the potential of prosthetic heart valves to generate abnormal flow and stress pattern...
Left ventricular flow is intrinsically complex, three-dimensional and unsteady. Its features are sus...
Intra-cardiac blood flow imaging and visualization is challenging due to the processes involved in g...
Abstract Mechanical heart valves implanted in mitral position modify deeply the ventricular flow dur...
Intra-cardiac blood flow imaging and visualization is challenging due to the processes involved in g...
A three-dimensional computational fluid dynamics (CFD) method has been developed to simulate the flo...
The spatiotemporal characteristics of the intraventricular flow field, and their evolution with time...