Topics
The matrixWork
collagenProtein
von Willebrand factorBiomolecule
dyeTopical concept
extracellular matrixAnatomical structure
IC50Software
endotheliumAnatomical structure
plateletMilitary unit
Platelet aggregation occurs in response to vascular injury where the extracellular matrix below the endothelium has been exposed. The platelet adhesion cascade takes place in the presence of shear flow, a factor not accounted for in conventional (static) well-plate assays. This article reports on a platelet-aggregation assay utilizing a microfluidic well-plate format to emulate physiological shear flow conditions. Extracellular proteins, collagen I or von Willebrand factor are deposited within the microfluidic channel using active perfusion with a pneumatic pump. The matrix proteins are then washed with buffer and blocked to prepare the microfluidic channel for platelet interactions. Whole blood labeled with fluorescent dye is perfused thro...
This study aimed to develop a simple microfluidic chip analysis technology to study the inhibitory e...
This paper reports on an investigation of mass transport of blood cells at micro-scale stenosis wher...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...
This paper reports the development of a platform technology for measuring platelet function and aggr...
Platelet behaviour on immobilized vascular proteins has been explored to great length over the last ...
Platelets are cell fragments that play a central role in hemostasis and thrombosis. Typically plat...
A microfluidic flow-based platform (mu FP), able to stimulate platelets via exposure of shear stress...
<p>A. Schematic of the microfluidic flow assay. Four channels (h = 50 µm, w = 500 µm) were placed ov...
In recent years, considerable progress has been made in understanding the mechanisms involved in pla...
Current ex vivo models of thrombosis either fail to accurately recreate the hemodynamics and focal n...
Current ex vivo models of thrombosis either fail to accurately recreate the hemodynamics and focal n...
INTRODUCTION: Mechanical circulatory support devices (MCSDs) are emerging as a valuable therapeutic ...
Current in vitro or ex vivo models of hemostasis and thrombosis fail to recapitulate the hemodynamic...
Current in vitro or ex vivo models of hemostasis and thrombosis fail to recapitulate the hemodynamic...
Microfluidic flow chambers (MFCs) allow the study of platelet adhesion and thrombus formation under ...
This study aimed to develop a simple microfluidic chip analysis technology to study the inhibitory e...
This paper reports on an investigation of mass transport of blood cells at micro-scale stenosis wher...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...
This paper reports the development of a platform technology for measuring platelet function and aggr...
Platelet behaviour on immobilized vascular proteins has been explored to great length over the last ...
Platelets are cell fragments that play a central role in hemostasis and thrombosis. Typically plat...
A microfluidic flow-based platform (mu FP), able to stimulate platelets via exposure of shear stress...
<p>A. Schematic of the microfluidic flow assay. Four channels (h = 50 µm, w = 500 µm) were placed ov...
In recent years, considerable progress has been made in understanding the mechanisms involved in pla...
Current ex vivo models of thrombosis either fail to accurately recreate the hemodynamics and focal n...
Current ex vivo models of thrombosis either fail to accurately recreate the hemodynamics and focal n...
INTRODUCTION: Mechanical circulatory support devices (MCSDs) are emerging as a valuable therapeutic ...
Current in vitro or ex vivo models of hemostasis and thrombosis fail to recapitulate the hemodynamic...
Current in vitro or ex vivo models of hemostasis and thrombosis fail to recapitulate the hemodynamic...
Microfluidic flow chambers (MFCs) allow the study of platelet adhesion and thrombus formation under ...
This study aimed to develop a simple microfluidic chip analysis technology to study the inhibitory e...
This paper reports on an investigation of mass transport of blood cells at micro-scale stenosis wher...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...
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