Add to ORKGThis paper describes microfluidic experiments with human blood plasma and numerical simulations to determine the role of fluid flow in the regulation of propagation of blood clotting. We demonstrate that propagation of clotting can be regulated by different mechanisms depending on the volume-to-surface ratio of a channel. In small channels, propagation of clotting can be prevented by surface-bound inhibitors of clotting present on vessel walls. In large channels, where surface-bound inhibitors are ineffective, propagation of clotting can be prevented by a shear rate above a threshold value, in agreement with predictions of a simple reaction-diffusion mechanism. We also demonstrate that propagation of clotting in a channel with a large volum...
Coagulation kinetics are well established in well plates assays in which human plasma clots isotropi...
To date, microfluidic techniques provide the most physiologically relevant environment for the study...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...
This paper describes microfluidic experiments with human blood plasma and numerical simulations to d...
Hemostasis is the complex biochemical network that controls blood clotting. We previously described ...
Biological and physical factors interact to modulate blood response in a wounded vessel, resulting i...
Biological and physical factors interact to modulate blood response in a wounded vessel, resulting i...
AbstractThis article demonstrates that the threshold response of initiation of blood clotting to the...
Objective—Blood flow is considered one of the important parameters that contribute to venous thrombo...
This article demonstrates that the threshold response of initiation of blood clotting to the size of...
International audienceVessel occlusion is a perturbation of blood flow inside a blood vessel because...
Hemodynamics plays an important role in the formation of blood clots, for which changes in hydrodyna...
Initiation of blood coagulation by tissue factor (TF) is a robust, highly regulated process. Both th...
Coagulation kinetics are well established in well plates assays in which human plasma clots isotropi...
This article demonstrates that a simple chemical model system, built by using a modular approach, ma...
Coagulation kinetics are well established in well plates assays in which human plasma clots isotropi...
To date, microfluidic techniques provide the most physiologically relevant environment for the study...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...
This paper describes microfluidic experiments with human blood plasma and numerical simulations to d...
Hemostasis is the complex biochemical network that controls blood clotting. We previously described ...
Biological and physical factors interact to modulate blood response in a wounded vessel, resulting i...
Biological and physical factors interact to modulate blood response in a wounded vessel, resulting i...
AbstractThis article demonstrates that the threshold response of initiation of blood clotting to the...
Objective—Blood flow is considered one of the important parameters that contribute to venous thrombo...
This article demonstrates that the threshold response of initiation of blood clotting to the size of...
International audienceVessel occlusion is a perturbation of blood flow inside a blood vessel because...
Hemodynamics plays an important role in the formation of blood clots, for which changes in hydrodyna...
Initiation of blood coagulation by tissue factor (TF) is a robust, highly regulated process. Both th...
Coagulation kinetics are well established in well plates assays in which human plasma clots isotropi...
This article demonstrates that a simple chemical model system, built by using a modular approach, ma...
Coagulation kinetics are well established in well plates assays in which human plasma clots isotropi...
To date, microfluidic techniques provide the most physiologically relevant environment for the study...
Microfluidic devices provide a powerful platform for the study of blood biology due to their control...