Thrombosis research
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Fibrinogen Aarhus was found in a woman with slightly prolonged whole blood clotting time. The thrombin induced clotting of plasma and purified fibrinogen was much prolonged. Kinetic analysis of FPA and FPB release revealed larger apparent Km and Vmax values for fibrinogen Aarhus than for normal fibrinogen. ⋯ The turbidity of fibrin gels obtained from fibrinogen Aarhus was similar to normal fibrin gels at low thrombin concentrations. Increasing thrombin concentration resulted in appearance of degradation products in the fibrin gels from fibrinogen Aarhus and at the same time a relative increase in turbidity of the gels was observed. Possibly reasons for the slow release of fibrinopeptides, the delayed gelation, and susceptibility to degradation by thrombin are discussed.
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Thrombosis research · Apr 1986
Effects of tranexamic acid on fibrinolysis, fibrinogenolysis and amidolysis.
When Glu-plasminogen (Glu-plg) was activated by urokinase (UK) in the presence of fibrinogen or fibrinogen plus tranexamic acid (1 mM), or else tranexamic acid (1 mM), the activation as measured by the hydrolysis of S-2251 was enhanced by tranexamic acid or fibrinogen or both. When plasma or clotted plasma was activated by UK in the presence of 1 mM tranexamic acid, fibrinolysis was completely inhibited. When Lys-plg was activated by UK in the presence of tranexamic acid and fibrin or fibrinogen, fibrinolysis was completely inhibited by 1 mM tranexamic acid, but some inhibition of fibrinogenolysis was observed. ⋯ The release of B beta 15-42 from fibrin after UK-activation of Lys-plg was partly inhibited by tranexamic acid. In conclusion, tranexamic acid in the concentration of 1 mM enhanced amidolysis, but inhibted fibrinolysis measured by the generation of fibrin-degradation products. Fibrinogenolysis and the release of B beta 15-42 from fibrin were partly inhibited.