Polymorphisms in several distinct genomic regions, including the F7 gene, were recently associated with factor VII (FVII) levels in European Americans (EAs). The genetic determinants of FVII in African Americans (AAs) are unknown. We used a 50,000 single nucleotide polymorphism (SNP) gene-centric array having dense coverage of over 2,000 candidate genes for cardiovascular disease (CVD) pathways in a community-based sample of 16,324 EA and 3898 AA participants from the Candidate Gene Association Resource (CARe) consortium. Our aim was the discovery of new genomic loci and more detailed characterization of existing loci associated with FVII levels. In EAs, we identified three new loci associated with FVII, of which APOA5 on chromosome 11q23 and HNF4A on chromosome 20q12-13 were replicated in a sample of 4289 participants from the Whitehall II study. We confirmed four previously reported FVII-associated loci (GCKR, MS4A6A, F7 and PROCR) in CARe EA samples. In AAs, the F7 and PROCR regions were significantly associated with FVII. Several of the FVII-associated regions are known to be associated with lipids and other cardiovascular-related traits. At the F7 locus, there was evidence of at least five independently associated SNPs in EAs and three independent signals in AAs. Though the variance in FVII explained by the existing loci is substantial (20% in EA and 10% in AA), larger sample sizes and investigation of lower frequency variants may be required to identify additional FVII-associated loci in EAs and AAs and further clarify the relationship between FVII and other CVD risk factors.

OBJECTIVE

There is a great interindividual variability among patients with acute ischemic stroke regarding the response to intravenous tissue-type plasminogen activator treatment. The aim of this study was to identify genetic variants associated with recanalization, and thus treatment efficacy, after tissue-type plasminogen activator administration.

METHODS

A total of 140 single nucleotide polymorphisms from 97 candidate genes were successfully genotyped by SNPlex in 2 cohorts, accounting for 497 prospectively recruited tissue-type plasminogen activator-treated patients, of whom 33% recanalized during tissue-type plasminogen activator infusion. Functional studies were then performed, including assessment of interleukin 1B mRNA levels and von Willebrand factor, FIII, FVII, FVIII, and FX protein activity.

RESULTS

After replication, the following single nucleotide polymorphisms were associated with early recanalization: rs1143627 in IL1B gene (CC: 53.1% of recanalization, A-carriers: 32.7%; P=0.022; replication cohort: P=0.046), rs16944 in IL1B gene (AA: 50% of recanalization, G-carriers: 32%; P=0.038; replication cohort: P=0.049), and rs1063856 in the vWF gene (GG: 53.8% of recanalization, A-carriers: 31.5%; P=0.006; replication cohort: P=0.046). The functional studies revealed an association between the rs1063856 single nucleotide polymorphisms in vWF and FVIII activity (AA: 115.93%, AG: 156.07%, GG: 83.42%; P=0.005).

CONCLUSIONS

Three single nucleotide polymorphisms were associated with tissue-type plasminogen activator efficacy in the Spanish population, and their mechanism of action might be associated with the activity of coagulation factors.

This study investigates the potential role of 17 chosen polymorphisms in 15 candidate genes and the risk of myocardial infarction in patients under 45 years of age. The study consists of 271 patients with myocardial infarction and 141 controls. The analysis of genetic polymorphisms was performed using the PCR-RFLP method. Of the chosen polymorphisms, two (Leu125Val PECAM1 and A1/A2 FVII) are related to myocardial infarction and two (C677T MTHFR and 5A/6A MMP3) to advanced stenosis in arterial vessels >> 75%). We also found that the frequency of some combinations among the analyzed genes and environmental factors varied between the patient and control groups.

BACKGROUND

Erythropoietin (Epo) has been shown to improve myocardial function in models of experimental myocardial infarction, but has also been associated with a rise in thromboembolic events. Thus, the aim of this study was to investigate the influence of Epo on platelet activation and coagulation in patients with acute myocardial infarction (AMI).

METHODS

The study was designed as a substudy of the randomised, double-blind, placebo controlled REVIVAL-3 (REgeneration of VItal Myocardium in ST-Segment EleVation MyocardiAL Infarction by Erythropoietin) study that investigated the effects of recombinant human Epo in AMI. Serial venous blood samples were collected before and after study medication. Circulating prothrombin fragment F1 + 2, FVII, active FVII, beta thromboglobulin (TG) and P-Selectin were measured before and 60 hours after randomization by immunoassay (n = 94). In a randomly selected subgroup platelet aggregation was measured using whole blood aggregometry (Multiplate Analyzer, n = 45).

RESULTS

After 5 days an increase in FVII was observed after Epo as compared to placebo (P = 0.02), yet active FVII and prothrombin fragment F1 + 2 remained unchanged. Moreover, no statistically significant differences in circulating TG or P-selectin were observed between the groups. As an expected response to peri-interventional therapy with clopidogrel and aspirin, platelet aggregation after stimulation with ADP, TRAP, ASPI or collagen decreased 12 hours and 2 days after PCI. However, no difference between the Epo and the placebo group was observed.

CONCLUSIONS

After treatment with Epo in patients with AMI a slight increase in circulating FVII after Epo was not associated with an increase in active FVII, prothrombin fragment F1 + 2, TG or P-selectin. Moreover, platelet aggregation was not altered after treatment with Epo as compared to placebo.

BACKGROUND

ClinicalTrials.gov Identifier: NCT01761435.

Reporter gene analysis of two regions of the human factor VII (FVII) gene promoter (residues -658 to -1 and -348 to -1, where +1 is the start site of translation) in the mammalian liver-derived cell line HepG2 showed reduced transcriptional activity in the presence of oestrogenic factors. This effect was independent of promoter polymorphic haplotype. Similar analysis using a smaller region of the promoter spanning residues -187 to -1 failed to show any evidence of oestrogenic suppression. Electrophoretic mobility shift assays and supershift assays using recombinant oestrogen receptor alpha and anti-oestrogen receptor antibody localized the sequence motif to which oestrogen receptor was binding to residues -225 to -212 of the FVII promoter. The lack of oestrogenic suppression in a reporter gene construct spanning residues -658 to -1 modified to abolish oestrogen receptor binding at this site, confirmed the functional significance of this motif. Although superficially similar to the classical oestrogen response element (ORE), comprising two half sites separated by three spacer nucleotides, the FVII ORE represents an alternative type of ORE in which the two half sites are separated by just two spacer nucleotides. EMSAs indicated that increasing spacer nucleotide number from two to three in the FVII ORE, or decreasing it from three to two in a consensus ORE sequence motif, had a small effect on the binding affinity for oestrogen receptor. These data correlate with and provide a plausible mechanism for the inverse relationship between FVII and oestradiol levels observed during the menstrual cycle.

We investigated the role of thrombophilic mutations as possible modifiers of the clinical phenotype in severe factor VII (FVII) deficiency. Among 7 patients homozygous for a cross-reacting material-negative (CRM-) FVII defect (9726+5G>A, FVII Lazio), the only asymptomatic individual carried FV Leiden. Differential modulation of FVII levels by intragenic polymorphisms was excluded by a FVII to factor X (FX) gene haplotype analysis. The coagulation efficiency in the FV Leiden carrier and a noncarrier was evaluated by measuring FXa, FVa, and thrombin generation after extrinsic activation of plasma in the absence and presence of activated protein C (APC). In both patients coagulation factor activation was much slower and resulted in significantly lower amounts of FXa and thrombin than in a normal control. However, more FXa and thrombin were formed in the plasma of the patient carrying FV Leiden than in the noncarrier, especially in the presence of APC. These results were confirmed in FV-FVII doubly deficient plasma reconstituted with purified normal FV or FV Leiden. The difference in thrombin generation between plasmas reconstituted with normal FV or FV Leiden gradually decreased at increasing FVII concentration. We conclude that coinheritance of FV Leiden increases thrombin formation and can improve the clinical phenotype in patients with severe FVII deficiency.

BACKGROUND

Patients receiving warfarin are at increased risk of bleeding when their International Normalised Ratio (INR) >4.5. Although not standardised above 4.5 the INR is measured in over-anticoagulated patients, consequently we have examined the reliability of INR results ≥4.5. We assessed: the relationship between different prothrombin time systems for INRs >4.5; the relationships between the INR and levels of vitamin K-dependent coagulation factors (VKD-CF) and thrombin generation test (TGT) parameters; and the impact that variation in results would have on warfarin dosing.

METHODS

INRs were performed using a CoaguChek XS Plus point-of-care (POC) device (measuring range 0.6-8.0). For POC INRs ≥4.5, laboratory INRs were also measured using a recombinant tissue factor (rTF) and a rabbit brain (RBT) thromboplastin.

RESULTS

There was good correlation between POC (INR ≥4.5, <8.0) and Lab INRs (rTF n=154, rs=0.87, p<0.0001; RBT n=102, rs=0.76, p<0.0001); and significant correlations between each of the VKD-CF and the INR, the strongest being with FVII (POC INR rs=-0.53 p<0.0001; Lab rTF-INR rs=-0.70 p<0.0001). TGT peak thrombin and ETP also showed good correlations with INR values (R(2)>0.71). Using POC and Lab rTF-INR, 109/154 (71%), or POC and Lab RBT-INR 75/102 (74%) results exhibited dosage concordance and/or were within 0.5 INR units. In the remaining patients variation in warfarin dosing was generally slight.

CONCLUSIONS

Our data suggest that CoaguChek XS Plus INRs >4.5 and <8.0 are comparable to laboratory INRs (both methods) and it is probably unnecessary to perform laboratory INRs for clinical management of patients with INRs >4.5 including those >8.0.

Data concerning genetic factors that may influence the risk of primary intracerebral hemorrhage (PICH) are scarce. One previous study, indicated that the carriers of the (-323)Ins allele of the coagulation factor VII (FVII) have an increased risk of PICH. Another recent study, tested the effect of apolipoprotein E. We analyzed, whether the (-401)G ->> T polymorphism, which is in linkage disequilibrium (LD) with the 10-bp Ins/Del polymorphism at position (-323), or the (-402)G ->> A polymorphisms of the FVII gene are associated with an increased risk for PICH. We performed a small case-control study in 85 patients with PICH and in 85 healthy control subjects. To each patient a control was individually matched for age, gender, and hypertension. We did not find any significant differences in allele frequencies for the A allele of the FVII (-402)G ->> A polymorphism (0.25 vs. 0.25; P = 0.900, OR = 1, ns.) nor for the T Allele of the FVII (-401)G ->> T polymorphism (0.09 vs. 0.12; P = 0.480, OR = 1.38, ns.). The analysis of haplotype distributions did not reveal significant differences. Our results do not support the hypothesis that the investigated polymorphisms in the FVII gene are significantly associated with the risk for PICH.

Prenatal diagnosis is the generally accepted option for genetic disorders including haemophilias and other bleeding disorders. Cord blood analysis between 17.4 and 20.6 weeks of gestation was performed in 172 confirmed carriers belonging to families of haemophilia A, haemophilia B, von Willebrand disease (VWD), factor VII and X deficiency; 133 were carriers for haemophilia A, 30 for haemophilia B, six for type 3 VWD, two for FX deficiency and one for FVII deficiency. The approach to the cord was either transabdominal or transamniotic. The volume of blood collected varied between 1 and 2 mL. In case of haemophilias, the diagnosis was offered by factor VIII/IX:C activity and antigen assays wherever required. In case of VWD, the diagnosis was based on von Willebrand factor antigen assays as detected by ELISA along with FVIII:C assay while in cases of FVII and FX deficiency, the diagnosis was based on FVII:C and FX:C respectively. The factor levels were compared with the normal range established in the laboratory for different coagulation factors between 18 and 21 weeks of gestation in women tested for other haematological disorders. Only in two cases, the procedure had to be repeated for reasons of extensive maternal contamination. All the deliveries have been followed up and the diagnoses reconfirmed by repeat clotting factor assays and DNA analysis whenever informative. Simple precautions like collection of fetal blood samples in smaller volumes in separate tubes, assaying multiple coagulation factors in the fetal blood samples helped us to offer diagnoses in all the women analysed. No fetal death or abortion was reported following the procedure. We suggest that accurate fetal blood sampling is a safe technique for the diagnosis of many of the bleeding disorders in places where genetic diagnostic services are not available.

BACKGROUND

The production of factor VIII (FVIII) inhibitors is a serious problem of replacement therapy with FVIII concentrates in hemophiliacs. It affects 10-20% patients and leads to an increased risk of severe bleeding and its complications. Immune tolerance induction (ITI) is considered the appropriate treatment in such cases, despite different regimens without clearly defined effectiveness. ITI eradicates FVIII inhibitors and allows retreatment with FVIII concentrates in 70% of patients.

METHODS

The case of a patient with congenital hemophilia A in whom allo-antibodies against FVIII were identified in a high titer at the age of 5 after 70 exposures to human plasma FVIII concentrates is presented. A spontaneous decrease in inhibitor titer to 14 BU/ml within 6 months after the termination of FVIII administration allowed ITI, consisting of FVIII in high doses and intravenous immunoglobulins. Cessation of bleeding during the treatment was achieved with recombinant activated FVII (rFVIIa). ITI lasted for 22 months and, despite the high inhibitor titer at the start of ITI suggesting poor outcome, it led to eradication of the inhibitor. The prophylactic replacement therapy with FVIII was restarted and since then no signs of FVIII inhibitor have been observed.

CONCLUSIONS

ITI with high-dose FVIII, intravenous immunoglobulins, and rFVIIa is a beneficial treatment option for hemophiliac A patients with high-titer FVIII inhibitor.

The rare inherited coagulation factor deficiencies (deficiencies of factors I, II, V, VII, XI, XIII, combined FV + FVII deficiency, combined deficiency of the vitamin K dependent factors and von Willebrand disease type 3) have an aggregate prevalence of approximately 1:100,000. They may cause recurrent life or function threatening haemorrhage. In this article we review the available literature on long-term prophylaxis and, where possible, make recommendations on this important area.

BACKGROUND

A paucity of data exists on the incidence, diagnosis and treatment of bleeding in women with inherited factor VII (FVII) deficiency.

OBJECTIVE

Here we report results of a comprehensive analysis from two international registries of patients with inherited FVII deficiency, depicting the clinical picture of this disorder in women and describing any gender-related differences.

METHODS

A comprehensive analysis of two fully compatible, international registries of patients with inherited FVII deficiency (International Registry of Factor VII deficiency, IRF7; Seven Treatment Evaluation Registry, STER) was performed.

RESULTS

In our cohort (N = 449; 215 male, 234 female), the higher prevalence of mucocutaneous bleeds in females strongly predicted ensuing gynaecological bleeding (hazard ratio = 12.8, 95% CI 1.68-97.6, P = 0.014). Menorrhagia was the most prevalent type of bleeding (46.4% of patients), and was the presentation symptom in 12% of cases. Replacement therapies administered were also analysed. For surgical procedures (n = 50), a receiver operator characteristic analysis showed that the minimal first dose of rFVIIa to avoid postsurgical bleeding during the first 24 hours was 22 μg kg(-1) , and no less than two administrations. Prophylaxis was reported in 25 women with excellent or effective outcomes when performed with a total weekly rFVIIa dose of 90 μg kg(-1) (divided as three doses).

CONCLUSIONS

Women with FVII deficiency have a bleeding disorder mainly characterized by mucocutaneous bleeds, which predicts an increased risk of ensuing gynaecological bleeding. Systematic replacement therapy or long-term prophylaxis with rFVIIa may reduce the impact of menorrhagia on the reproductive system, iron loss and may avoid unnecessary hysterectomies.

Genetically altered cancer cells both provoke and respond to changes in their microenvironment, stroma, and vasculature. This includes local and systemic activation of the coagulation system, which is a part of the functional continuum involving inflammation, angiogenesis, and tissue repair programs, often reactivated in cancer. These responses coevolve with, and contribute to, the malignant process. Cancer coagulopathy is not only a source of comorbidity and mortality in cancer patients, but it also affects the disease biology including processes of tumor growth, initiation, dormancy, invasion, angiogenesis, metastasis, and therapeutic responsiveness. Notably, genetic and cellular differences between different cancer types are paralleled by a degree of diversity in the related coagulation system perturbations. Although some of these differences may be unspecific, iatrogenic, or indirect in nature, others are affected by oncogenic pathways (RAS, EGFR, HER2, MET, PTEN, and TP53) activated in cancer cells due to driver mutations of critical genes. Such mutations cooperate with hypoxia, cellular differentiation, and other influences to alter the expression of tissue factor, protease-activated receptors (e.g., PAR-1 and PAR-2), coagulation factors (FII and FVII), and other molecules related to the hemostatic system. Oncogenic pathways also control secretion of some of these entities from cancer cells, either as soluble proteins, or as cargo of extracellular vesicles/microparticles. Moreover, emerging evidence suggests that the expression profiles of coagulation-related genes differ between molecularly and genetically distinct subgroups of specific malignancies such as glioblastoma multiforme and medulloblastoma. Certain hereditary thrombophilias may also affect cancer pathogenesis. We suggest that mechanisms of cancer coagulopathy may be more diverse and genetically modulated than hitherto realized. If so, a possibility may exist to deliver more personalized, biologically based, anticoagulation, and thereby improve patient survival.

Aim. We aimed to investigate and evaluate the preventive activity of puerarin on the ovalbumin-induced asthma rat model. Materials and Methods. Male Wistar rats were sensitized intraperitoneally on days 0, 7, and 14 and challenged to ovalbumin intratracheally on day 21. Groups of sensitized rats were treated randomly either with placebo, puerarin, dexamethasone, or puerarin combined with dexamethasone, from days 15 to 20. Inflammatory markers, including cell counts in bronchoalveolar lavage fluid (BALF), inflammatory cytokines, histopathology, and coagulation parameters, such as coagulation tests and the activity of coagulation factors, were analyzed. Results. Puerarin significantly inhibited the recruitment of inflammatory cells in BALF and lung tissue. At the same time, the release of IL-4, IL-10, and IFN- γ in serum and the expression of mRNAs in lung tissue homogenate were changed by puerarin. Administration of puerarin also effectively rectified the coagulation disorder in asthmatic rats, such as prothrombin time (PT) (P < 0.01), thrombin time (TT) (P < 0.05), fibrinogen (FIB) (P < 0.01),the activity of factor II (FII) (P < 0.01), the activity of factor V (FV) (P < 0.05), the activity of factor VII (FVII) (P < 0.05), the activity of factor X (FX) (P < 0.05), the activity of factor VIII (FVIII) (P < 0.01), the activity of factor IX (FIX) (P < 0.05), and the activity of factor XII (FXII) (P < 0.05). Conclusions. Our results provide a clue that puerarin was useful for the preventive of allergic airway disease in rodents.

Factor VII-activating protease (FSAP) is involved in haemostasis and inflammation. FSAP cleaves single chain urokinase-type plasminogen activator (scu-PA). The 1601GA genotype of the 1601G/A polymorphism in the FSAP gene leads to the expression of a FSAP variant with reduced ability to activate scu-PA, without affecting the ability to activate coagulation Factor VII (FVII). Previous studies have investigated the association of the 1601GA genotype with incidence and progression of carotid stenosis and deep venous thrombosis (DVT). The present study is the first to evaluate the potential association between the FSAP phenotype and DVT. We studied the association between the 1601G/A polymorphism, FSAP activity, FSAP antigen, Factor VIIa (FVIIa), prothrombin fragment 1+2 (F1+2), and C-reactive protein (CRP) in plasmas of 170 patients suspected for DVT. FSAP genotypes were equally distributed in patients with (n=64) and without DVT (n=106), (P=0.94). The 1601GA genotype was associated with significant reduction of FSAP activity (P<0.001) and FSAP antigen levels (P=0.04). Patients with DVT showed significantly higher FSAP activity (P=0.008), FSAP antigen (P=0.003), and F1+2 levels (P<0.001) than patients without DVT. The association between the FSAP measures and DVT disappeared when adjusted for CRP levels. F1+2 correlated positively to FSAP antigen (P=0.01), while FVIIa-levels were comparable in patients with and without DVT. We conclude that even though FSAP measures are significantly increased in patients with acute DVT, alterations in the scu-PA activating properties of FSAP are presumably not markedly involved in the development of acute DVT, and that the association between FSAP and DVT disappears after adjustment for CRP.

Smoking is associated with endothelial dysfunction and abnormalities in thrombosis/fibrinolysis system, possibly through increased oxidative stress. In this study we investigated the effect of combined antioxidant treatment with vitamins C and E on endothelial function and plasma levels of plasminogen activator inhibitor (PAI-1), von Willebrand factor (vWF), tissue plasminogen activator (tPA) and factor VII (fVII), in smokers. Forty-one healthy smokers were randomly divided into 4 groups receiving vitamin C 2g/day (group A), vitamin C 2g/day plus vitamin E 400 IU/day (group B), vitamin C 2g/day plus vitamin E 800 IU/day (group C) or no antioxidants (controls, group D), for 4 weeks. Forearm blood flow was measured using venous occlusion strain-gauge plethysmography. Forearm vasodilatory response to reactive hyperemia (RH%) or to sublingual nitroglycerin administration (NTG%) were considered as indexes of endothelium dependent or independent dilation respectively. After treatment, RH% was increased only in groups B (p <0.05) and C (p <0.001) but not in groups A and D. Plasma levels of PAI-1 and vWF were decreased only in group C (p <0.05 for both), while PAI-1/tPA ratio was significantly decreased in both groups B and C (p <0.05 for both). NTG% and plasma levels of tPA and fVII remained invariable in all groups. In conclusion, combined administration of vitamin C and vitamin E at high dosages, improved endothelial function and decreased plasma levels of PAI-1, vWF and PAI-1/tPA ratio in chronic smokers.

Several studies have indicated a profound role for factor VII(a) [FVII(a)] in venous and arterial thrombogenesis. In the present study, we quantified the inhibitory efficacy of dansyl-glutamyl-glycyl-arginyl-recombinant FVIIa (DEGR-rFVIIa) on acute thrombus formation. Thrombus formation was elicited by immobilized tissue factor (TF) in a parallel-plate perfusion chamber device at blood flow conditions characterized by wall shear rates of 100 S-1 (veins) and 650 S-1 (medium-sized healthy arteries). Native human blood was drawn directly from an antecubital vein by a pump into a heparin-coated mixing device in which DEGR-rFVIIa (0.09 to 880 nmol/L final plasma concentration) or buffer was mixed homogeneously with flowing blood. Subsequently, the blood was passed over a plastic coverslip coated with TF and phospholipids in the parallel-plate perfusion chamber. Fibrin deposition, platelet-fibrin adhesion, and platelet thrombus volume triggered by this surface were measured by morphometry. DEGR-rFVIIa inhibited thrombus formation in a dose-dependent manner, but the efficacy was shear rate dependent. At a wall shear rate of 100 S-1, the IC50 (50% inhibition) was 30 nmol/L, whereas at 650 S-1, the IC50 was 0.6 nmol/L. Binding studies to immobilized TF under flow conditions using surface plasmon resonance revealed a significantly higher on-rate for DEGR-rFVIIa and FVIIa than for FVII, 2.8 x 10(5), 2.6 x 10(5), and 1.8 x 10(5) M-1 S-1, respectively. This indicates that a contributing factor to the shear-dependent efficacy may be a differential importance of on-rates at arterial and venous blood flow conditions.

Blood coagulation is initiated in response to vessel damage in order to preserve the integrity of the mammalian vascular system. The coagulation cascade can also be initiated by mediators of the inflammatory response, and fibrin deposition has been noted in a variety of pathological states. The cascade of coagulation zymogen activations which leads to clot formation is initiated by exposure of flowing blood to Tissue Factor (TF), the cellular receptor and cofactor for Factor VII (FVII). FVII binds to the receptor in a I:I stoichiometric complex and is rapidly activated. FVIIa undergoes an active site transition upon binding TF in the presence of calcium which enhances the fundamental properties of the enzyme. This results in rapid autocatalytic activation of FVII to FVIIa, thereby amplifying the response by generating more TF-FVIIa complexes. The TF-FVIIa activates both FIX and FX. Further FXa generation by the FIXa-FVIIIa-Ca2+-phospholipid complex is required to sustain the coagulation mechanism, since the TF-FVIIa complex is rapidly inactivated by Tissue Factor pathway inhibitor (TFPI). TFPI circulates in plasma, is associated with vascular cell surface and is released from platelets following stimulation by thrombin. TFPI requires the formation of an active TF-FVIIa complex and FXa generation before inhibition can occur. TFPI prevents further participation of TF in the coagulation process by forming a stable quaternary complex, TF-FVIIa-FXa-TFPI.

Angiotensin converting enzyme (ACE) influences vessels tone and the coagulation/fibrinolysis system. The ACE gene I/D polymorphism has been linked with PAI-1 and fibrinogen levels and with Factors VII and X activities. Therefore, we aimed to test whether I/D polymorphism could be related to thrombolysis safety and efficacy. We studied strokes involving the middle cerebral artery (MCA) territory of patients who received t-PA <3 h of stroke onset. Blood samples were obtained before t-PA administration to measure fibrinogen, PAI-1, Factors VII and X. I/D polymorphism was determined by polymerase chain reaction and agarose electrophoresis. Recanalization rates were serially evaluated by Transcranial Doppler. Among 96 included patients the genotype frequency was: DD=33.3%, ID=57.3% and II=9.4%. A strong association was found between DD homozygous and successful recanalization rates (DD=69.2%, ID+II=31.6%, p=0.002 at 1 h; DD=91.3%, ID+II=51%, p=0.001 at 6 h; DD=100%, ID+II=72.3%, p=0.003 at 24 h post-t-PA administration). In fact, DD genotype was an independent predictor of recanalization (OR=4.3 95% CI 1.35-13.49, p=0.013). No relation was found between I/D polymorphism and symptomatic hemorrhagic complications (p=0.237). No association between ACE genotypes and Factor VII or Factor X activities, neither with fibrinogen or PAI-1 levels was observed. DD homozygous is strongly associated with MCA recanalization following t-PA treatment. Mechanisms of benefit remain unknown since I/D polymorphism had similar FVII and X activities and PAI-1 and fibrinogen levels in our stroke population.

Inherited coagulation disorders constitute a broad spectrum of coagulation factor deficiencies that include X-linked factor (F)VIII or FIX deficiency that causes haemophilia, and autosomal recessive disorders producing heterogeneous deficiencies in fibrinogen (FI), prothrombin (FII), FV, FVII, FX, FXI, FXIII and combined FV+FVIII. Significant advances in treatments for patients with congenital haemophilia A (FVIII deficiency) and B (FIX deficiency) over the last two decades have resulted from improvements in the production, availability and patient access to factor replacement products. Translation of advances in biotechnology, namely recombinant protein technology, targeted protein modifications to improve function and potentially reduce immunogenicity, and advanced formulations to optimize bioavailability and sustain activity offer promisingly new treatments for haemophilia as well as recessively inherited bleeding disorders in patients who otherwise have few therapeutic options. Though a theoretical risk remains for blood-borne viral infections with pooled plasma-derived products, this concern has diminished with breakthroughs in purification and viral inactivation methods. Development of inhibitory antibodies is still the most daunting problem for patients with inherited bleeding disorders, complicating treatment approaches to control and prevent bleeding, and posing risks for allergic and anaphylactic reactions in susceptible patients. The objectives of this review are to (i) highlight emerging advances in hemostatic therapies that are bioengineered to improve pharmacokinetic properties and bioavailability, sustain functional activity, and possibly eliminate immunogenicity of recombinant factor proteins; and (ii) present an overview of key clinical trials of novel factor products currently in the development pipeline.

This study investigated whether the pre-surgical plasma levels of TAT and F1 + 2 of patients undergoing major surgery for localized tumours could identify patients at higher risk of thrombosis, and how heparin prophylaxis affected in vivo coagulation after cancer surgery. We measured the pre- and post-operative levels of TAT, F1 + 2, total factor VII (FVIIt) and zymogen FVII (FVIIz) in 117 cancer patients, with and without heparin prophylaxis. The end points of this study were DVT, initially detected by 125I-fibrinogen uptake test and confirmed by ascending venography. Pre-operative [TAT] and [F1 + 2] of the cancer patients were significantly higher than those of age-matched control subjects (n = 50) (P < 0.005 and P < 0.05, respectively); pre-operative [FVII] was not significantly different. One of the 83 patients receiving prophylaxis, and 8/34 not receiving prophylaxis developed post-operative DVT. Of the parameters evaluated, only the pre-operative [TAT]>> 3.5 ng/ml identified patients at higher risk for post-operative DVT. Heparin reduced plasma TAT levels and FVII consumption following surgery, suggesting that heparin modulates coagulation associated with cancer surgery. The results of this study also suggest that the pre-operative [TAT] may identify patients with higher risk for post-operative DVT.

BACKGROUND

Extracorporeal circuit priming and intravascular volume expansion during cardiopulmonary bypass (CPB) may lead to dilutional coagulopathy and excessive diffuse postoperative bleeding. Prothrombin complex concentrate (PCC) containing clotting factors II (FII), VII (FVII), IX (FIX), and X (FX) could be of potential value in correcting dilutional coagulopathy and reducing blood loss.

METHODS

Anaesthetized pigs underwent CPB with hypothermia for 2 h at 25°C followed by 1 h of normothermia. Approximately 1 h after CPB, animals randomly received either isotonic saline 1 ml kg⁻¹ or PCC 30 IU kg⁻¹ in a volume of 1 ml kg⁻¹. Diffuse coagulopathic bleeding was assessed as suture hole blood loss from a Gore-Tex patch placed over a full-thickness incision in the left carotid artery.

RESULTS

After CPB, levels of FII, FVII, FIX, and FX declined from baseline by 32% to 48%, and PCC fully or partially reversed those deficits. Median suture hole blood loss after administration of saline placebo was 74 ml. PCC reduced suture hole bleeding by a median of 54 ml with a 95% confidence interval of 6-112 ml (P=0.026) compared with saline. PCC, but not saline, normalized skin bleeding time. Peak thrombin generation markedly decreased after CPB, but then returned in PCC-treated animals to a level higher than baseline by 28.7 nM (14.5-41.1 nM; P=0.031).

CONCLUSIONS

PCC was effective in correcting dilutional coagulopathy and reducing diffuse bleeding in an in vivo large-animal CPB model. Further research is warranted on PCC as a haemostatic agent in CPB.

Reports on the use of recombinant activated factor VII (rFVIIa) to counteract hemorrhagic shock in neonates and preterm infants are increasing. rFVIIa enhances thrombin generation in situations with impaired thrombin formation and, since thrombin has a crucial role in providing hemostasis, rFVIIa is regarded as a general hemostasis agent. Full thrombin generation is necessary for the formation of a stable fibrin plug resistant to premature fibrinolysis. Antifibrinolytic drugs are not recommended for the treatment of acute bleeding. We report four neonates (one with massive postsurgical hemorrhage after ileostomy and three with severe pulmonary hemorrhage in the course of mechanical ventilation for meconium aspiration syndrome, congenital heart disease and during postoperative resuscitation after cardiac surgery for congenital heart disease) who were successfully treated with multiple administration of rFVIIa (120 microg/kg per dose) and antifibrinolytic therapy - aminocaproic acid (100 mg/kg per dose). In a fibrinolytic environment therapeutic concentrations of rFVIIa may sometimes be insufficient to produce adequate amounts of thrombin necessary for stable clot structure. Laboratory data in three of our patients with pulmonary hemorrhage (low fibrinogen levels with slightly prolonged prothrombin time) supported this thesis, so we blocked fibrinolysis with aminocaproic acid and achieved a complete clinical and laboratory therapeutic effect.

Recombinant activated factor VII (rFVIIa) was given to three children with acute bleeding resulting from liver failure and disseminated intravascular coagulation. Cases I and II (girls aged 3 years and 6 years, respectively) were diagnosed with Dengue hemorrhagic fever and prolonged shock. Case III, a boy aged 9 months, underwent left lobe hepatectomy for a hepatoblastoma, during which 60% of his liver was removed. This case was complicated by myoglobinuria, liver and renal impairment and early disseminated intravascular coagulation. All three patients exhibited active bleeding. Cases I and II received rFVIIa combined with other blood component replacement, while Case III received rFVIIa as the only hemostatic agent. A bolus of 40-180 microg/kg b.w. was administered followed by 16.5-33 microg/kg b.w. per h continuous infusion. As a result, bleeding was controlled, the prothrombin time was shortened and FVII clotting activity was significantly increased. In conclusion, rFVIIa has shown some efficacy in controlling acute bleeding in children with liver failure and disseminated intravascular coagulation.