Add to ORKGWe examined the dynamics of clot growth in vitro and found, that initially the clot grows at a constant speed, then abruptly stops and becomes surrounded by an \inhibition zone " in which coagulation is strongly suppressed. We also observed formation of \stratied structures" (target patterns) in which solid layers alternate with liquid blood. The experimental results strongly support a hypothesis that blood is a new type of excitable medium
AbstractInjury-induced bleeding is stopped by a hemostatic plug formation that is controlled by a co...
Hemodynamics plays an important role in the formation of blood clots, for which changes in hydrodyna...
Fibrinolysis is a cascade of proteolytic reactions occurring in blood and soft tissues, which functi...
We examined the spatial dynamics of in vitro clot growth in human blood and plasma and found that in...
We constructed a mathematical model of clotting, which is based on a current view of the molecular p...
AbstractBlood coagulation in vivo is a spatially nonuniform, multistage process: coagulation factors...
AbstractThis article demonstrates that the threshold response of initiation of blood clotting to the...
Abstract Reaction-diffusion system of equations describing blood clotting is studied. Different regi...
ABSTRACT This article demonstrates that the threshold response of initiation of blood clotting to th...
AbstractThis study shows that environmental confinement strongly affects the activation of nonlinear...
To gain greater insight into the nature of the bleeding tendency in hemophilia, we compared the spat...
ABSTRACT Blood coagulation in vivo is a spatially nonuniform, multistage process: coagulation factor...
Initiation of blood coagulation by tissue factor (TF) is a robust, highly regulated process. Both th...
This article demonstrates that a simple chemical model system, built by using a modular approach, ma...
We utilized the reaction network of coagulation (blood clotting) to test the effect of confinement b...
AbstractInjury-induced bleeding is stopped by a hemostatic plug formation that is controlled by a co...
Hemodynamics plays an important role in the formation of blood clots, for which changes in hydrodyna...
Fibrinolysis is a cascade of proteolytic reactions occurring in blood and soft tissues, which functi...
We examined the spatial dynamics of in vitro clot growth in human blood and plasma and found that in...
We constructed a mathematical model of clotting, which is based on a current view of the molecular p...
AbstractBlood coagulation in vivo is a spatially nonuniform, multistage process: coagulation factors...
AbstractThis article demonstrates that the threshold response of initiation of blood clotting to the...
Abstract Reaction-diffusion system of equations describing blood clotting is studied. Different regi...
ABSTRACT This article demonstrates that the threshold response of initiation of blood clotting to th...
AbstractThis study shows that environmental confinement strongly affects the activation of nonlinear...
To gain greater insight into the nature of the bleeding tendency in hemophilia, we compared the spat...
ABSTRACT Blood coagulation in vivo is a spatially nonuniform, multistage process: coagulation factor...
Initiation of blood coagulation by tissue factor (TF) is a robust, highly regulated process. Both th...
This article demonstrates that a simple chemical model system, built by using a modular approach, ma...
We utilized the reaction network of coagulation (blood clotting) to test the effect of confinement b...
AbstractInjury-induced bleeding is stopped by a hemostatic plug formation that is controlled by a co...
Hemodynamics plays an important role in the formation of blood clots, for which changes in hydrodyna...
Fibrinolysis is a cascade of proteolytic reactions occurring in blood and soft tissues, which functi...