Platelet membrane fragments enhance the procoagulant effect of recombinant factor VIIa in studies with circulating human blood under conditions of experimental thrombocytopenia.

The mechanism of action of recombinant factor VIIa (rFVIIa), which is being considered as an alternative treatment for the control of bleeding episodes in patients with thrombocytopenia, has not been fully characterized. This study was undertaken to explore the effects of rFVIIa and platelet microvesicles on hemostasis in an experimental model of thrombocytopenia. Damaged arterial segments were exposed to thrombocytopenic blood (shear rate 600 s(-1)) either with or without the addition of rFVIIa and/or platelet microvesicles. The presence of fibrin and platelets on the subendothelium were morphometrically quantified and immunolocalization techniques and electron microscopy were used for a more detailed analysis. Both rFVIIa and platelet microvesicles consistently improved fibrin formation on the damaged vascular subendothelium, and microvesicles were shown to be localized at different levels of the fibrin lattice. Further, under conditions of moderate thrombocytopenia, addition of platelet microvesicles potentiated the procoagulant action of rFVIIa. This effect may be due to the phospholipid surface provided by the platelet microvesicles. These studies support the concept that, under conditions of thrombocytopenia, both rFVIIa and platelet microvesicles enhance fibrin formation at sites of vascular damage.