Contact activation of blood-plasma coagulation

A mathematical model of contact activation of blood coagulation was developed and analysed. The model variables are concentrations of factor XIIa, kallikrein and activated high-molecular-weight kininogen. Concentrations of active factors were shown to depend on the activating signal value in a hyste

## Abstract Activation of human blood plasma coagulation by contact with hydrophilic or hydrophobic surfaces (procoagulants) is dominated by kallikrein (Kal)‐mediated activation of the blood zymogen FXII (Hageman Factor). Mathematical modeling of prekallikrein (PK)‐deficient platelet‐poor plasma (d

In the present work, blood plasma protein deposition to spontaneously air oxidized silicon, titanium and aluminium was reinvestigated in vitro. Immunological-and null ellipsometry methods were used to detect and quantitate adsorbed proteins, RIA methods to study the retention of preadsorbed 125 I-HS

A biophysical model linking fibrin polymerization kinetics (following release from a thrombin-fibrinogen complex), coagulation time, and competitive inhibition of thrombin illustrates the utility of thrombin-binding ligands as anticoagulants in blood collection applications. The resulting mathematic

It is hypothesized that immobilized heparin ex-contrast to PU, PU-NAH and PU-HAH are strong mediators erts a dual role in blood coagulation. On the one hand, the of factor XIa and factor IXa formation in normal and antiheparinized surface is because of its dense negative charge, thrombin-deficient p