Randomized, prospective clinical trial of recombinant factor VIIa for secondary prophylaxis in hemophilia patients with inhibitors.

BACKGROUND: Hemophilic patients with factor VIII (FVIII) and FIX inhibitors suffer from frequent bleeding episodes and reduced quality of life. OBJECTIVES: To evaluate whether secondary prophylaxis with activated recombinant factor VII (rFVIIa) can safely and effectively reduce bleeding frequency as compared to conventional on-demand therapy. METHODS: Thirty-eight male patients entered a 3-month preprophylaxis period to confirm high baseline bleeding frequency (mean > or = 4 bleeds per month). Twenty-two patients were randomized 1:1 to receive daily rFVIIa prophylaxis with either 90 or 270 microg kg(-1) for 3 months, followed by a 3-month postprophylaxis period. RESULTS: Bleeding frequency was reduced by 45% and 59% during prophylaxis with 90 and 270 microg kg(-1), respectively (P < 0.0001); however, there was no significant difference detected between doses. The majority of this reduction was maintained during the postprophylaxis period. Although all types of bleed were similarly reduced, the effect was most pronounced for spontaneous joint bleeds. Patients reported significantly fewer hospital admissions and days absent from work/school during prophylaxis as compared to the preprophylaxis period. No thromboembolic events were reported during prophylaxis. CONCLUSION: Clinically relevant reductions in bleeding frequency during prophylaxis as compared to conventional on-demand therapy were achieved without raising safety concerns. These results provide evidence for the concept of secondary rFVIIa prophylaxis in inhibitor patients with frequent bleeds.

Pharmacokinetics of activated recombinant coagulation factor VII (NovoSeven) in children vs. adults with haemophilia A.

To establish the pharmacokinetic profile of activated recombinant coagulation factor VII (rFVIIa; NovoSeven in children with haemophilia A, and to compare it with the pharmacokinetic profile in adults with haemophilia A. Twelve children (2-12 years) received one single dose of rFVIIa 90 and 180 micrograms kg(-1) in randomized order separated by a washout period of 48 h to 1 month. Six adults (18-55 years) received a single dose of rFVIIa 90 micrograms kg(-1). The pharmacokinetic analyses were based on a non-compartmental method. In children, the plasma level of FVII increased proportionally with the dose. The total body clearance normalized for body weight was significantly faster in children than in adults (FVII:C, 58 vs. 39 mL kg(-1) h(-1) and FVIIa, 78 vs. 53 mL kg(-1) h(-1), P < 0.05). A trend towards a larger volume of distribution at steady-state in children than in adults was observed (P > 0.05). Dose proportionality was established for plasma concentrations of FVII in children with haemophilia A at the dose levels investigated (90 and 180 micrograms kg(-1) rFVIIa). Following administration of rFVIIa 90 micrograms kg(-1), significantly faster clearance was observed in children compared with adults, suggesting that higher doses of rFVIIa may be needed to achieve the same plasma levels as in adults.

Recombinant activated factor VII (rFVIIa): characterization, manufacturing, and clinical development.

Recombinant activated coagulation factor VII (rFVIIa) (NovoSeven) was developed for treatment of bleeding in hemophilia patients with inhibitors (antibodies) against factors VIII or IX. rFVIIa initiates the coagulation cascade by binding to tissue factor at the site of injury and causes the formation of sufficient amounts of thrombin to trigger coagulation. Patients with a variety of other coagulation deficiencies than hemophilia characterized by an impaired thrombin generation and life-threatening bleeding have been reported as successfully treated with rFVIIa. Data are now entered into clinical registries established to further monitor this experimental treatment with NovoSeven. rFVIIa is produced free of any added human protein. The amino acid sequence of rFVIIa is identical to plasma-derived FVIIa (pdFVIIa). Posttranslational modifications (i.e., gamma-carboxylations, N- and O-glycosylations) are qualitatively identical in pdFVIIa and rFVIIa although some quantitative differences exist. The activities of rFVIIa and pdFVIIa are indistinguishable. Manufacturing of rFVIIa involves expression in baby hamster kidney (BHK) cells followed by purification, including three ion-exchange and one immunoaffinity chromatography steps. The last anion-exchange chromatography step ensures completion of the autoactivation of recombinant factor VII (rFVII) to rFVIIa. This review describes the mechanism of action, characterization, manufacturing, and preclinical and current clinical evidence for the efficacy and safety of rFVIIa.

Pharmacokinetics and safety of FFR-rFVIIa after single doses in healthy subjects.

FFR-rFVIIa is an antithrombotic agent, which has also proven to have antirestenotic properties in animal models. FFR-rFVIIa is a modified recombinant FVIIa in which the catalytic site is irreversibly inactivated by a synthetic tripeptide covalently bound with the FVIIa molecule. The modified rFVIIa retains its tissue factor (TF) binding capacity but is otherwise enzymatically inactive. A double-blind, placebo-controlled, randomized dose escalation trial was conducted to investigate eight single i.v. doses of FFR-rFVIIa (0.01, 0.02, 0.05, 0.08, 0.12, 0.18, 0.27, or 0.40 mg/kg body weight) in healthy male volunteers (n = 62). Safety, pharmacokinetics, and pharmacodynamics of FFR-rFVIIa were assessed. Mean (SD)AUC0-infinity ranged from 0.35 (0.11) to 28.8 (3.5)microg.h/ml, and mean Cmax ranged from 0.078 (0.019) to 4.8 (0.7) microg/ml. The mean elimination half-life ranged from 3.8 to 5.8 hours. Mean AUC0-infinity increased with increasing dose levels. Cmax appeared to be proportional to the dose level, with the exception of the lowest dose level. A dose-dependent prolongation of the prothrombin time was found, demonstrating that FFR-rFVIIa inhibited coagulation via the TF-dependent pathway FFR-rFVIIa was generally well tolerated at all dose levels studied.

Pharmacokinetics of recombinant activated factor VII (rFVIIa).

Recombinant coagulation factor VIIa (NovoSeven, Novo Nordisk Pharmaceuticals, Inc., Princeton NJ, USA) is a new drug for treatment of bleeding in patients with hemophilia and inhibitors. The pharmacokinetic profiles of rFVIIa have been evaluated in healthy adult volunteers who were pretreated with acenocoumarol, in adult and pediatric patients with hemophilia A or B, and in adult patients with cirrhosis and a prolonged prothrombin time (PT). The clearance (CL) and half-life (t1/2) values of rFVIIa after bolus injection were in the same range in the adult populations studied: patients with hemophilia, patients with cirrhosis, and healthy volunteers. The volume of distribution at steady state (Vss), on the other hand, was slightly smaller in healthy adult volunteers than in patients with hemophilia. The pharmacokinetic profile of rFVIIa seems to be independent of bleeding or nonbleeding conditions in adult hemophilic patients; however, the patients in these studies did not suffer from major bleeding episodes. The values of CL and t1/2 were also dose independent in adult patients with hemophilia and in patients with cirrhosis. Pediatric patients with hemophilia had shorter t1/2 and higher CL values than the adults with hemophilia. The administration of rFVIIa by continuous infusion is still experimental and a number of practical issues remain to be resolved.

Future possibilities in the regulation of the extrinsic pathway: rFVIIa and TFPI.

Following vessel wall injury, tissue factor (TF) is being exposed and forms complexes with the already activated FVII (FVIIa) present in the circulating blood, providing a limited amount of thrombin molecules that activate a number of coagulation proteins as well as the platelets. As a result of activation with thrombin the platelet surface exposes negatively charged phospholipids to which activated coagulation proteins bind tightly, and full thrombin generation occurs, resulting in the conversion of fibrinogen into fibrin. After the first FXa is formed, the tissue factor pathway inhibitor (TFPI) forms a complex with FXa. In the next step a quaternary complex is being formed, TF/FVIIa/FXa/TFPI, which inhibits the first step of the haemostatic pathway. Recombinant FVIIa (rFVIIa) has been developed for use as a haemostatic agent (NovoNordisk A/S, Denmark). Inactivated rFVIIa (rFVIIai) has also been prepared, and it has similar binding capacity to TF as rFVIIa but it blocks the catalytic activity of the TF complex. In various animal models rFVIIai has been demonstrated to prevent or diminish immediate thrombus formation at the site of vessel wall injury (athroplasty or other forms of mechanical injury) as well as the development of long-term intima thickening. Also, topical application of rFVIIai was found to block the formation of a thrombus. rFVIIai was shown to have an anti-inflammatory effect in lipopolysaccharide (LPS)-induced sepsis, and postischaemic reperfusion injury was found to be reduced by the administration of rFVIIai. In a limited number of patients undergoing percutaneous transluminal coronary angioplasty (PTCA), rFVIIai was observed to allow PTCA to be performed at lower doses of heparin than what has been reported previously. Recombinant TFPI has been shown to attenuate the lethal inflammatory and coagulopathic response. Furthermore, topical application of rFVIIai has been found to increase the patency rate in a model of graft surgery.

The direct antiatherogenic effect of estrogen is present, absent, or reversed, depending on the state of the arterial endothelium. A time course study in cholesterol-clamped rabbits.

BACKGROUND: This study further investigated the relationship between estrogen, arterial endothelium, and nitric oxide (NO) in cholesterol-clamped rabbits. METHODS AND RESULTS: Rabbits were ovariectomized, balloon-injured in the thoracic aorta, and grouped to receive cholesterol-enriched chow together with either 17beta-estradiol or vehicle for 1, 2, 4, or 8 weeks. In the undamaged aorta, cholesterol accumulation of the placebo rabbits was significantly increased from week 4 to 8 (P<0.001). This increase was almost completely inhibited by estrogen (P<0.001). In the balloon-injured aorta, the estrogen and placebo rabbits accumulated similar amounts of cholesterol in the reendothelialized areas. In the deendothelialized areas, the estrogen group surprisingly accumulated significantly more cholesterol than the placebo group. This difference was apparent from week 2 and became significant at week 8 (P<0.01). Circulating nitrite/nitrate were significantly increased by estrogen at weeks 1, 2, and 4 but not at week 8. Similarly, in additional experiments, basal NO release was significantly higher in estrogen-treated than in placebo-treated rabbits after 4 (P<0.05) but not after 8 weeks. Stimulated NO release and endothelial NO synthase activity did not differ between groups. Mononuclear-endothelial cell binding was reduced by 50% by estrogen after 4 weeks (P<0.05). This difference, however, was abolished by coadministration of N(G)-nitro-L-arginine methyl ester, an inhibitor of NO production. CONCLUSIONS: The direct antiatherogenic effect of estrogen was present, absent, or reversed, depending on the state of the arterial endothelium, and preceded by a transient increase in NO production followed by a reduced mononuclear-endothelial cell binding.

Population pharmacokinetics of recombinant factor VIIa in volunteers anticoagulated with acenocoumarol.

This study establishes a population PK model for FVII clotting activity (FVII:C) after injection of recombinant activated factor VII (rFVIIa) to healthy volunteers. Twenty eight volunteers, anticoagulated with acenocoumarol, received one or two rFVIIa injections, with dose ranging from 5 to 320 microg/kg. The FVII:C kinetic was fitted to a 2 compartment model, with continuous "endogenous perfusion" mimicking endogenous activity. Estimated clearance was 2.4 1/h (20% inter-individual variability and 9% inter-period variability). The volume of distribution at steady-state appeared to be significantly dose dependent: 78 ml/kg for doses < or = 20 microg/kg and 88 ml/kg for doses > 20 microg/kg respectively, with 16% inter-individual variability. The dose producing 50% of the maximum drop of INR was estimated to be 2.2 microg/kg. The model will be used to better define the dosage regimen for future clinical developments.

The effect of recombinant factor VIIa (NovoSeven) in healthy volunteers receiving acenocoumarol to an International Normalized Ratio above 2.0.

Vitamin K antagonists are most commonly used in long-term thrombosis prophylaxis and the use in patients with cardiovascular disease seems to be increasing. By interfering with the normal hemostatic mechanism, an increased risk of bleeding will arise and administration of human plasma or prothrombin complex concentrates may be necessary. It can be difficult to normalize hemostasis using plasma and prothrombin complex concentrates, because these may be associated with thromboembolic side-effects. The level of factor VII, one of the vitamin-K-dependent coagulation factors, decreases during oral anticoagulant therapy and the administration of recombinant factor VIIa normalizes the prolonged prothrombin time in warfarin-treated rats. After administration of acenocoumarol (International Normalized Ratio > 2), decreased levels of factor X and factor IX (19-46%), protein C (2-20%) and factor VII (4-17%) were found in 28 healthy volunteers. After one dose of recombinant factor VIIa (5, 10, 20, 40, 80, 120, 160, 240, or 320 microg/kg) the International Normalized Ratio and prothrombin time normalized, which may imply an effect on bleeding in individuals receiving oral anticoagulant therapy. The lowest dose (5 microg/kg) normalized the International Normalized Ratio for 12 h and doses > 120 microg/kg normalized it for 24 h. Fragment 1+2 stayed within its normal range in all dose groups, indicating that no systemic coagulation occurred.

Recombinant factor VIIa corrects prothrombin time in cirrhotic patients: a preliminary study.

BACKGROUND & AIMS: Cirrhotic patients with a prolonged prothrombin time (PT) are known to have low levels of factor VII. Because the current modalities to correct this problem are not ideal, recombinant factor VIIa (rFVIIa) may be useful in correcting the prolonged PT observed in the coagulopathy of cirrhosis. The aim of this study was to evaluate the effectiveness of rFVIIa in nonbleeding volunteer patients with the coagulopathy of cirrhosis. METHODS: A preliminary, single-center, dose-escalation trial was performed. Cirrhotic patients with a PT of > 2 seconds above the upper limit of the reference value received an intramuscular injection of vitamin K. Ten patients whose PT did not correct to within 2 seconds above the control of the upper limit of the reference value were given three successive dosages of rFVIIa (5, 20, and 80 micrograms/kg) during a 3-week period. RESULTS: The mean PT transiently corrected to normal in all three dosage groups. No adverse effects were noted. There was no evidence of the induction of disseminated intravascular coagulation. CONCLUSIONS: This preliminary trial shows rFVIIa to be effective in transiently reversing the prolonged PT in a select group of nonbleeding cirrhotic patients. These preliminary observations support conducting a large-scale efficacy trial.

Blocking of tissue factor pathway inhibitor (TFPI) shortens the bleeding time in rabbits with antibody induced haemophilia A.

Tissue factor (TF)/FVIIa initiates coagulation by activating factor IX (FIX) and factor X (FX). Tissue factor pathway inhibitor (TFPI)-FXa complexes form and inhibit TF/FVIIa. Blocking of TFPI may facilitate haemostasis initiated by FVIIa/TF thereby compensating for impaired FIX/FVIII-dependent coagulation. This hypothesis was tested in a study using rabbits made temporarily haemophilic by the injection of antibodies against FVIII. These rabbits were given i.v. injections of anti-TFPI IgG antibodies and 40 min later bleeding was initiated by cutting the nail including the apex of the cuticle. Injection of anti-TFPI IgG shortened the bleeding time significantly from 26 min to 11 min (normal mean bleeding time in non-haemophilia rabbits: 5 min). Treatment with anti-TFPI IgG also resulted in a shortening of the haemophilic aPTT to a level slightly longer than the normal aPTT. In addition, the prolonged dilute TF clotting time was shortened by the anti-TFPI IgG treatment. Thus, both bleeding and coagulation parameters indicated that blocking of TFPI may be potentially haemostatic in haemophilia.

The effect of recombinant aprotinin on t-PA-induced bleeding in rats.

High dose aprotinin administered during cardiopulmonary bypass (CPB) has been shown to reduce post-operative bleeding substantially. The exact mechanism of action is still debated. A reduction in fibrinolytic activity by inhibition of plasmin generated during CPB may be the primary mode of action. However, this hypothesis has been questioned as the apparent inhibitory constant of aprotinin for plasmin is orders of magnitude lower than the clinically effective plasma concentration of aprotinin. In the present study the effect of various plasma levels of aprotinin on a plasmin-induced bleeding in rats was investigated. The mean time of bleeding was 10 min in rats receiving only saline whereas a prolonged bleeding of up to > 45 min was seen in rats given t-PA and saline. The steady-state plasma concentration of recombinant aprotinin during infusion of 11 mg/kg/h was approximately 2 microM which roughly corresponds to the clinical use of aprotinin. This dose reduced the t-PA-induced bleeding to a mean value of 11 min, whereas no effects were observed with lower doses. The effect of aprotinin in clinical care of blood loss in CPB in man may therefore be caused by direct inhibition of plasmin.

Recombinant human factor VIIa (rFVIIa) in a rabbit stasis model.

The thrombogenicity of recombinant human FVIIa (rFVIIa) and FEIBA was studied in a rabbit stasis model. Only minor thrombus formation in isolated vein segments during 10 min. of stasis was seen following the administration of rFVIIa 100-1000 micrograms/kg or FEIBA 50-100 U/kg whereas both compounds caused clear thrombus formation during 30 min. of stasis. RFVIIa caused no change in platelet counts or plasma fibrinogen 3 hours after administration, whereas a small decrease of APTT was seen due to the direct effect of rFVIIa in this assay. In contrast, FEIBA caused a significant and dose-dependent decrease of platelet counts as well as of fibrinogen, and an increase of APTT which demonstrate a general consumption of coagulation factors. In conclusion the study demonstrated a local pharmacological effect of rFVIIa in the absence of a general activation of the coagulation cascade.