Clinical and applied thrombosis/hemostasis : official journal of the International Academy of Clinical and Applied Thrombosis/Hemostasis
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Clin. Appl. Thromb. Hemost. · Oct 2000
Comparative StudyThromboelastograph assay for measuring the mechanical strength of fibrin sealant clots.
In order to provide sustained hemostasis or tissue sealing, fibrin sealants must generate adhesive clots with mechanical properties capable of resisting forces, such as shear, that might break or tear the clot. Commercial preparations of fibrin sealants should generate clots of adequate and consistent mechanical strength. The mechanical strength of fibrin sealants is often measured as bonding strength in in vivo or ex vivo animal wound models. ⋯ Shear strength was also shown to correlate with the sealant concentration of the fibrin cross-linking proenzyme, factor XIII. Sealants containing lysine, which can act as an alternate substrate for factor XIII enzyme and prevent efficient fibrin chain cross-linking, were shown by this method to generate clots of substantially reduced shear strength. The method distinguished between thrombin-catalyzed clot formation and other fibrinogen clotting mechanisms as evidenced by the significantly lower shear strength associated with batroxobin-generated fibrin clots.