Add to ORKGThe objective of this study was to gain further understanding and elucidation of the fluid dynamic factors and flow-induced mechanisms of the thrombogenic process of platelet deposition onto, and possible subsequent embolization from, the walls of an arterial stenosis. This has been accomplished by measurement of the axial dependence of platelet deposition within a modeled arterial stenosis for a transitional flow and a completely laminar flow field. The stenotic region of the model was collagen-coated to simulate a damaged endothelial lining of an artery. Fluid dynamics within a stenosis was studied using qualitative flow visualization, and was further compared to the in vitro platelet deposition studies. Normalized platelet density (NPD) ...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
dissertationThe elevated shear force caused by anastomotic stenosis is a common complication at the ...
To better understand how platelets behave when exposed to high shear stress, computational fluid dyn...
AbstFact--In this study, we analyzed blood flow through a model stenosis with Reynolds numbers rangi...
In this study, we analyzed blood flow through a model stenosis with Reynolds numbers ranging from 30...
The intention of this study is to develop a numerical model that depicts flow and platelet behavior ...
In this study, the development of unsteady vortical formations in the separated flow region distal t...
An important aspect of blood-material interactions is the activation, adhesion, and subsequent aggre...
An important aspect of blood-material interactions is the activation, adhesion, and subsequent aggre...
The development of unsteady vortical formations in the separated flow region downstream of the steno...
Platelet deposition has been shown previously to depend on convective transport patterns, visualized...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
Cardiovascular diseases, principally atherosclerosis, are responsible for 30% of world deaths. Ather...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
Abstract The precipitating event leading to stroke, myocar-dial infarction, and/or sudden death may ...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
dissertationThe elevated shear force caused by anastomotic stenosis is a common complication at the ...
To better understand how platelets behave when exposed to high shear stress, computational fluid dyn...
AbstFact--In this study, we analyzed blood flow through a model stenosis with Reynolds numbers rangi...
In this study, we analyzed blood flow through a model stenosis with Reynolds numbers ranging from 30...
The intention of this study is to develop a numerical model that depicts flow and platelet behavior ...
In this study, the development of unsteady vortical formations in the separated flow region distal t...
An important aspect of blood-material interactions is the activation, adhesion, and subsequent aggre...
An important aspect of blood-material interactions is the activation, adhesion, and subsequent aggre...
The development of unsteady vortical formations in the separated flow region downstream of the steno...
Platelet deposition has been shown previously to depend on convective transport patterns, visualized...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
Cardiovascular diseases, principally atherosclerosis, are responsible for 30% of world deaths. Ather...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
Abstract The precipitating event leading to stroke, myocar-dial infarction, and/or sudden death may ...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
dissertationThe elevated shear force caused by anastomotic stenosis is a common complication at the ...
To better understand how platelets behave when exposed to high shear stress, computational fluid dyn...