Platelet activation is traditionally quantified using turbidimetric aggregometry, which reflects integrin αIIbβ3 activity, an important determinant of platelet function during pathophysiological thrombus formation. However, aggregometry does not recreate the shear conditions prevailing during thrombosis in vivo. Here we describe novel whole-frame analysis of real-time video microscopy to quantify platelet adhesion receptor activity under shear in parallel-plate flow chambers. We demonstrate that the rate of change of surface coverage (designated Platelet Population Mobility, PM) quantifies platelet mobility. On collagen, PM falls exponentially to a low level, corresponding to firm platelet adhesion, while on other substrates, PM remains hig...
As platelets aggregate and activate at the site of vascular injury to stem bleeding, they are subjec...
The imaging of shear-mediated dynamic platelet behavior interacting with surface-immobilized von Wil...
Disturbances of blood flow at sites of atherosclerotic plaque rupture are one of the key pathogenic ...
Platelets can become activated in response to changes in flow-induced shear; however, the underlying...
<div><p>Platelets can become activated in response to changes in flow-induced shear; however, the un...
Platelets can become activated in response to changes in flow-induced shear; however, the underlying...
A method for quantitative analysis of platelet deposition under flow is discussed here. The model sy...
Imaging methods based on time-lapse microscopy are important tools for studying the dynamic events t...
Arterial thrombosis, the formation of blood clot within an artery, is a complex process that consist...
AbstractWe have used confocal videomicroscopy in real time to delineate the adhesive interactions su...
Adhesivity and aggregability of blood platelets may reflect normal and diseased states. A quantitati...
The early stages of clot formation in blood vessels involve platelet adhesion–aggregation. Although ...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemical Engineering, 2008.Initial recruitment of...
The work herein examines in vitro platelet aggregation in response to fluid shearing motion. Our spe...
Due to the complexity of mural thrombosis, involving blood flow patterns, blood cellular and protein...
As platelets aggregate and activate at the site of vascular injury to stem bleeding, they are subjec...
The imaging of shear-mediated dynamic platelet behavior interacting with surface-immobilized von Wil...
Disturbances of blood flow at sites of atherosclerotic plaque rupture are one of the key pathogenic ...
Platelets can become activated in response to changes in flow-induced shear; however, the underlying...
<div><p>Platelets can become activated in response to changes in flow-induced shear; however, the un...
Platelets can become activated in response to changes in flow-induced shear; however, the underlying...
A method for quantitative analysis of platelet deposition under flow is discussed here. The model sy...
Imaging methods based on time-lapse microscopy are important tools for studying the dynamic events t...
Arterial thrombosis, the formation of blood clot within an artery, is a complex process that consist...
AbstractWe have used confocal videomicroscopy in real time to delineate the adhesive interactions su...
Adhesivity and aggregability of blood platelets may reflect normal and diseased states. A quantitati...
The early stages of clot formation in blood vessels involve platelet adhesion–aggregation. Although ...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemical Engineering, 2008.Initial recruitment of...
The work herein examines in vitro platelet aggregation in response to fluid shearing motion. Our spe...
Due to the complexity of mural thrombosis, involving blood flow patterns, blood cellular and protein...
As platelets aggregate and activate at the site of vascular injury to stem bleeding, they are subjec...
The imaging of shear-mediated dynamic platelet behavior interacting with surface-immobilized von Wil...
Disturbances of blood flow at sites of atherosclerotic plaque rupture are one of the key pathogenic ...