Response: Mechanism of Action of High-Dose Factor VIIa
There are two areas of disagreement between our groups concerning the mechanism of action of supraphysiological factor VIIa concentrations in hemophilia:*7{)1e?, 百拇医药
Whether high concentrations of factor VIIa can support vigorous thrombin generation in the absence of factor VIII and factor IX in a tissue factor-independent manner.*7{)1e?, 百拇医药
Whether phospholipid additions can increase the hemostatic (or thrombotic) potential of the factor VIIa/tissue factor complex.*7{)1e?, 百拇医药
Recombinant factor VIIa at supraphysiological concentrations has been used primarily for the treatment of bleeding episodes related to hemophilia with inhibitors.1 However, the "standard" dose of 90 µg/kg (26 nmol/L) has also been used for the treatment of a variety of bleeding disorders,1 leading to reports of either success or failure to provide normal hemostasis.2–4 These observations emphasize the importance of knowledge related to the mechanism by which supraphysiological concentrations of factor VIIa may act to produce a desirable response.
See pages 8 and 123.ky, 百拇医药
Our data using both a synthetic coagulation model (in the presence of either phospholipids or platelets) and minimally altered fresh blood suggest that factor VIIa at the pharmacological concentration attained (10 nmol/L) does not restore normal thrombin generation in hemophilia A and hemophilia B blood.5,6 However, the addition of anionic phospholipids together with 10 nmol/L factor VIIa to "acquired" hemophilia B blood increases thrombin generation to the extent observed in normal blood at the same tissue factor concentration.6.ky, 百拇医药
We agree and have reported that the role of platelets in blood coagulation is more complex than that of phospholipids.7 However, phospholipid preparations composed of 75% phosphatidylcholine and 25% phosphatidylserine at 1 to 2 µmol/L produce equivalent thrombin generation as platelets at their mean physiological concentration (2x108/mL) in the presence or absence of factor VIII.5,7 The addition of factor VIIa (up to 40 nmol/L) in the absence of factor VIII has little effect on thrombin generation in the presence of either platelets or 2 µmol/L phospholipids. Similarly, the addition of 10 nmol/L factor VIIa to congenital hemophilia A and "acquired" hemophilia B blood, which contains all peripheral blood elements, including platelets (which appears to be a physiologically relevant system) has only a marginal effect on thrombin generation. Thus, we are not able to obtain experimental evidence confirming a pronounced prothrombotic activity of high concentrations of factor VIIa in the absence of functional factor VIII or factor IX.
With respect to criticisms leveled at our study published in this issue of the Journal,6 we would like to emphasize that phospholipids were added to whole blood (normal and "acquired" hemophilia B), ie, platelets were present at 1.8 to 2.7x108/mL, and their activation was not impaired by the addition of phospholipids (see Figure 3B; osteonectin release). The increase in thrombin generation with phospholipids shown in this study is not new: a similar effect was observed for the combination of factor Xa and phospholipids (synthetic and derived from platelets) in an in vivo rabbit model.8,9 It is likely that the accumulation of platelets from flowing blood at a site of vascular damage might produce a similar result to phospholipids per se.x#7.:(, http://www.100md.com
We are unsure of the basis for the discrepancies between our results5,6 and those observed by Monroe et al10 and Hoffman et al.,11 Our experimental systems differ in the source of tissue factor, which is used to initiate the reaction; that could be the cause of some of the differences.
References?mto, 百拇医药
Hedner U. Recombinant factor VIIa (NovoSeven) as a hemostatic agent. Semin Hematol. 2001; 38 (suppl 12): 43–47.?mto, 百拇医药
Santagostino A, Morfini M, Rocino A, Baudo F, Scaraggi FA, Gringeri A. Relationship between factor VII activity and clinical efficacy of recombinant factor VIIa given by continuous infusion to patients with factor VIII inhibitors. Thromb Haemost. 2001; 86: 954–958.?mto, 百拇医药
Smith MP, Ludlam CA, Collins PW, Hay SRM, Wilde JT, Grigeri A, Melsen T, Savidge GF. Elective surgery on factor VIII inhibitor patients using continuous infusion of recombinant activated factor VII. Thromb Haemost. 2001; 86: 949–953.?mto, 百拇医药
Henderson N, Key NS, Christie B, Kisiel W, Foster D, Nelsestuen GL. Response of factor VIII and IX-deficient blood to wild type and high membrane affinity mutant factor VIIa in an in vitro whole blood clotting assay: possible correlation to clinical outcome. Thromb Haemost. 2002; 88: 98–103.?mto, 百拇医药
Butenas S, Brummel KE, Branda RF, Paradis SG, Mann KG. Mechanism of factor VIIa-dependent coagulation in hemophilia blood. Blood. 2002; 99: 923–930.
Butenas S, Brummel KE, Paradis SG, Mann KG. Influence of factor VIIa and phospholipids on coagulation in "acquired" hemophilia. Arterioscler Thromb Vasc Biol. 2002; 22: 123–129.np!+^fx, 百拇医药
Butenas S, Branda RF, van‘t Veer C, Cawthern KM, Mann KG. Platelets and phospholipids in tissue factor-initiated thrombin generation. Thromb Haemost. 2001; 86: 660–667.np!+^fx, 百拇医药
Giles AR, Nesheim ME, Hoogendoorn H, Tracy PB, Mann KG. The coagulant-active phospholipid content is a major determinant of in vivo thrombogenicity of prothrombin complex (Factor IX) concentrates in rabbits. Blood. 1982; 59: 401–407.np!+^fx, 百拇医药
Giles AR, Nesheim ME, Hoogendoorn H, Tracy PB, Mann KG. Stroma free human platelet lysates potentiate the in vivo thrombogenicity of factor Xa by the provision of coagulant-active phospholipid. Br J Haematol. 1982; 51: 457–468.np!+^fx, 百拇医药
Monroe DM, Hoffman M, Oliver JA, Roberts HR. Platelet activity of high-dose factor VIIa is independent of tissue factor. Br J Haematol. 1997; 99: 542–547.np!+^fx, 百拇医药
Hoffman M, Monroe DM, Roberts HR. Activated factor VII activates factors IX and X on the surface of activated platelets: thoughts on the mechanism of action of high-dose activated factor VII. Blood Coagul Fibrinolysis. 1998; 9 (suppl 1): S61–S65.(Kenneth G. Mann Saulius Butenas)
Whether high concentrations of factor VIIa can support vigorous thrombin generation in the absence of factor VIII and factor IX in a tissue factor-independent manner.*7{)1e?, 百拇医药
Whether phospholipid additions can increase the hemostatic (or thrombotic) potential of the factor VIIa/tissue factor complex.*7{)1e?, 百拇医药
Recombinant factor VIIa at supraphysiological concentrations has been used primarily for the treatment of bleeding episodes related to hemophilia with inhibitors.1 However, the "standard" dose of 90 µg/kg (26 nmol/L) has also been used for the treatment of a variety of bleeding disorders,1 leading to reports of either success or failure to provide normal hemostasis.2–4 These observations emphasize the importance of knowledge related to the mechanism by which supraphysiological concentrations of factor VIIa may act to produce a desirable response.
See pages 8 and 123.ky, 百拇医药
Our data using both a synthetic coagulation model (in the presence of either phospholipids or platelets) and minimally altered fresh blood suggest that factor VIIa at the pharmacological concentration attained (10 nmol/L) does not restore normal thrombin generation in hemophilia A and hemophilia B blood.5,6 However, the addition of anionic phospholipids together with 10 nmol/L factor VIIa to "acquired" hemophilia B blood increases thrombin generation to the extent observed in normal blood at the same tissue factor concentration.6.ky, 百拇医药
We agree and have reported that the role of platelets in blood coagulation is more complex than that of phospholipids.7 However, phospholipid preparations composed of 75% phosphatidylcholine and 25% phosphatidylserine at 1 to 2 µmol/L produce equivalent thrombin generation as platelets at their mean physiological concentration (2x108/mL) in the presence or absence of factor VIII.5,7 The addition of factor VIIa (up to 40 nmol/L) in the absence of factor VIII has little effect on thrombin generation in the presence of either platelets or 2 µmol/L phospholipids. Similarly, the addition of 10 nmol/L factor VIIa to congenital hemophilia A and "acquired" hemophilia B blood, which contains all peripheral blood elements, including platelets (which appears to be a physiologically relevant system) has only a marginal effect on thrombin generation. Thus, we are not able to obtain experimental evidence confirming a pronounced prothrombotic activity of high concentrations of factor VIIa in the absence of functional factor VIII or factor IX.
With respect to criticisms leveled at our study published in this issue of the Journal,6 we would like to emphasize that phospholipids were added to whole blood (normal and "acquired" hemophilia B), ie, platelets were present at 1.8 to 2.7x108/mL, and their activation was not impaired by the addition of phospholipids (see Figure 3B; osteonectin release). The increase in thrombin generation with phospholipids shown in this study is not new: a similar effect was observed for the combination of factor Xa and phospholipids (synthetic and derived from platelets) in an in vivo rabbit model.8,9 It is likely that the accumulation of platelets from flowing blood at a site of vascular damage might produce a similar result to phospholipids per se.x#7.:(, http://www.100md.com
We are unsure of the basis for the discrepancies between our results5,6 and those observed by Monroe et al10 and Hoffman et al.,11 Our experimental systems differ in the source of tissue factor, which is used to initiate the reaction; that could be the cause of some of the differences.
References?mto, 百拇医药
Hedner U. Recombinant factor VIIa (NovoSeven) as a hemostatic agent. Semin Hematol. 2001; 38 (suppl 12): 43–47.?mto, 百拇医药
Santagostino A, Morfini M, Rocino A, Baudo F, Scaraggi FA, Gringeri A. Relationship between factor VII activity and clinical efficacy of recombinant factor VIIa given by continuous infusion to patients with factor VIII inhibitors. Thromb Haemost. 2001; 86: 954–958.?mto, 百拇医药
Smith MP, Ludlam CA, Collins PW, Hay SRM, Wilde JT, Grigeri A, Melsen T, Savidge GF. Elective surgery on factor VIII inhibitor patients using continuous infusion of recombinant activated factor VII. Thromb Haemost. 2001; 86: 949–953.?mto, 百拇医药
Henderson N, Key NS, Christie B, Kisiel W, Foster D, Nelsestuen GL. Response of factor VIII and IX-deficient blood to wild type and high membrane affinity mutant factor VIIa in an in vitro whole blood clotting assay: possible correlation to clinical outcome. Thromb Haemost. 2002; 88: 98–103.?mto, 百拇医药
Butenas S, Brummel KE, Branda RF, Paradis SG, Mann KG. Mechanism of factor VIIa-dependent coagulation in hemophilia blood. Blood. 2002; 99: 923–930.
Butenas S, Brummel KE, Paradis SG, Mann KG. Influence of factor VIIa and phospholipids on coagulation in "acquired" hemophilia. Arterioscler Thromb Vasc Biol. 2002; 22: 123–129.np!+^fx, 百拇医药
Butenas S, Branda RF, van‘t Veer C, Cawthern KM, Mann KG. Platelets and phospholipids in tissue factor-initiated thrombin generation. Thromb Haemost. 2001; 86: 660–667.np!+^fx, 百拇医药
Giles AR, Nesheim ME, Hoogendoorn H, Tracy PB, Mann KG. The coagulant-active phospholipid content is a major determinant of in vivo thrombogenicity of prothrombin complex (Factor IX) concentrates in rabbits. Blood. 1982; 59: 401–407.np!+^fx, 百拇医药
Giles AR, Nesheim ME, Hoogendoorn H, Tracy PB, Mann KG. Stroma free human platelet lysates potentiate the in vivo thrombogenicity of factor Xa by the provision of coagulant-active phospholipid. Br J Haematol. 1982; 51: 457–468.np!+^fx, 百拇医药
Monroe DM, Hoffman M, Oliver JA, Roberts HR. Platelet activity of high-dose factor VIIa is independent of tissue factor. Br J Haematol. 1997; 99: 542–547.np!+^fx, 百拇医药
Hoffman M, Monroe DM, Roberts HR. Activated factor VII activates factors IX and X on the surface of activated platelets: thoughts on the mechanism of action of high-dose activated factor VII. Blood Coagul Fibrinolysis. 1998; 9 (suppl 1): S61–S65.(Kenneth G. Mann Saulius Butenas)