OC-03 - Modelisation of the procoagulant properties of cancer cells and their capacity to alter the antithrombotic efficiency of LMWHs and specific inhibitors of factor Xa.

INTRODUCTION: The risk of venous thromboembolism varies according to the histological type of cancer. The failure of antithrombotic treatment is more frequent in cancer patients as compared to non-cancer ones. AIM: We aimed to elucidate the mechanism of activation of blood coagulation induced by cancer, the impact of chemo-resistance phenotype on the capacity of cancer cells to trigger thrombin generation and the alterations of the efficiency of LMWHs and the specific inhibitors of factor Xa (fondaparinux and apixaban) in the presence of cancer cells. MATERIALS AND METHODS: Thrombin generation of human plasma was assessed in the presence of various cancer cell lines. The model of cancer-induced hypercoagulability was coupled to the research for the expression of procoagulant molecules by cancer cells. RESULTS: The pancreatic adenocarcinoma cells BXPC3 and the breast adenocarcinoma cells MCF7 were initially tested. The BXPC3 cells induce significantly higher thrombin generation as compared to the MCF7 cells. In the same line Marchetti et al. showed that malignant hematologic cells (NB4, HEL, and K562) and H69 small cell lung cells express different procoagulant potential on triggering thrombin generation of human plasma. The comparison of the procoagulant activity has been extended to cancer cell lines from various cancers (i.e. colon, ovarian and prostatic cancer) as well as to different cell lines of the same type of cancer. The differences of the cancer cell lines to trigger thrombin generation are mainly due to the expression of TF. The acquisition of chemoresistant phenotype by cancer cells is correlated with increased TF expression and enhancement of theit procoagulant activity. The ability of cancer cells to activate FXII is an alternative pathway of significant importance for some cancer cell lines (i.e. MCF7). Clinically relevant concentrations of LMWH and specific direct and indirect inhibitors of FXa (apixaban and fondaparinux) inhibit thrombin generation induced by cancer cells. The synergy between the anti-Xa and anti-IIa activities of LMWHs rather than the AT-dependent selective inhibition of FXa results in profound inhibition of thrombin generation induced by BXPC3 cells. This experimental model allowed the functional distinction between the two specific FXa inhibitors (apixaban and fondaparinux). CONCLUSIONS: The cancer cell-based model of hypercoagulability is suitable for the identification of the prothrombotic fingerprint of various cancer types. This experimental model allows to perform pharmacological studies for the evaluation of the efficiency of the antithrombotic drugs in cancer-induced hypercoagulability. It is suitable for the study of the impact of anticancer drugs on the procoagulant properties of the cancer cells.

PO-53 - Prospective evaluation of risk assessment models and biological markers of hypercoagulability for the identification of high VTE risk patients with lung adenocarcinoma. The ROADMAP study.

INTRODUCTION: In patients with lung adenocarcinoma (LA), metastasis (MTS), advanced stage and chemotherapy (CTx) are risk factors for thromboembolism (VTE). Routine thromboprophylaxis is not recommended but individualized risk assessment is encouraged. AIM: The selection of the most relevant hypercoagulability biomarkers (HB) for incorporation into the risk assessment models (RAM) for VTE. MATERIALS AND METHODS: Patients with documented LA eligible for CTx at distance of at least 3months from surgery or hospitalization were included. They were either CTx naive (NG) or had received CTx (OTG). Control group (CG) consisted of 30 healthy age & sex-matched individuals. We assessed them for thrombin generation (TG), P-Selectin, heparanase (HPA), procoagulant phospholipids (PPL), factor VIIa, D-Dimers (DDi) and Tissue Factor activity (TFa). RESULTS: Patients showed significantly shortened PPL and higher levels of TFa, DDi and HPA as compared to the CG. FVIIa levels were lower in patients compared to CG. The NG showed significantly shorter lag-time and lower ETP as compared to the OTG. It also showed significantly higher levels of HPA as compared to the OTG.The increase of TG and of HPA, P-Selectin, FVIIa was associated with the stage. Patients with MTS had higher levels of P-Selectin, TFa, DDi, FVIIa, TGT and HPA than those with localized or advanced disease.Patients with VTE had higher baseline levels of DDi, TGT, shorter PPL and lower levels of HPA as compared to those without. Patients who died within 3-months had higher baseline levels of DDi and lower HPA levels as compared to those who were alive. CONCLUSIONS: Increased PPL, TF pathway up regulation, DDi and HPA increase is a universal phenomenon in LA. CTx has an impact on TGT and HPA levels. Baseline values of TGT, PPL, HPA, DDi were related with mortality and thrombosis. The incorporation of HB in VTE-RAMs might improve their predictive value. This concept is being studied on an ongoing trial.

[Acquired hemophilia A in prepartum: case report and literature review]. / Hémophilie A acquise découverte au cours de la grossesse : à propos d'un cas et revue de la littérature.

INTRODUCTION: Acquired hemophilia A (AH) is a rare hemorrhagic disorder, secondary to the occurrence of factor VIII inhibitor. In young patients, this disorder is commonly observed during the post-partum period, and has been rarely documented in the prepartum. We report a new case of a prepartum AH and review literature data. CASE REPORT: An isolated prolongation of the activated partial thromboplastin time (APTT) was fortuitously discovered in a 31-year-old pregnant women, with spontaneous ecchymosis of her lower limbs few days prior to delivery. Coagulation tests revealed decreased factor VIII activity (18%) and the presence of factor VIII inhibitor (1,4 Bethesda unit). In order to eradicate the autoantibody, the patient was first treated with prednisone and then with rituximab. CONCLUSION: Prepartum factor VIII inhibitors need to be precociously recognized to allow prophylactic management of the delivery bleeding.

Circulating platelet-leukocyte aggregates: a marker of microvascular injury in diabetic patients.

Diabetes is associated with multiple disorders including metabolic, cellular and blood disturbances leading to vascular complications. Increased circulating levels of platelet-leukocyte aggregates (PLA) have been described in several thrombotic diseases. In this study, we have evaluated circulating PLA in diabetic patients and we have investigated whether they may be a marker of vascular complications. Using flow cytometry assay, we have quantified PLA percentages in 65 diabetics including 20 patients with type I and 45 with type II diabetes, and 25 healthy subjects. Specific labelling identified platelet-polymorphonuclear aggregates (PPA) and platelet-monocyte aggregates (PMA). We have observed a significant increase of PPA and PMA levels in diabetics (22+/-12% and 45+/-18%, respectively) compared to controls (7+/-4% and 19+/-10%, respectively) (p<0.01). However, both PPA and PMA values were similar in the two diabetes types. Circulating PPA and PMA were significantly enhanced in diabetics with vascular lesions (PPA: 24+/-13%; PMA: 50+/-18%) than in diabetics without vascular lesions (PPA: 18+/-8%; PMA: 38+/-15%) (p<0.05 and p<0.01). Patients with PPA>18% and/or PMA>38% showed a more important vascular injury (OR: 6; 95% CI: 1.6-23). Increased PMA circulating rate is particularly correlated to retinopathic injury (OR: 19; 95% CI: 2.3-154). Our findings established a relationship between increased circulating PLA levels, particularly PMA, and the incidence of microvascular complications in diabetes. They reinforce the concept of pro-inflammatory cells involvement in diabetic retinopathy pathogenesis and their link with thrombotic process.

Effect of the anti-factor Xa and anti-factor IIa activities of low-molecular-weight heparins upon the phases of thrombin generation.

BACKGROUND: Low-molecular-weight heparins (LMWHs), derived from unfractionated heparin (UFH) by different depolymerization procedures, vary in both their relative abilities to enhance the inhibition of FXa (anti-FXa) and thrombin (anti-FIIa), and in their physicochemical properties. OBJECTIVE: We aimed to profile the inhibition of thrombin generation induced by bemiparin, enoxaparin, nadroparin, dalteparin and tinzaparin in platelet-rich plasma (PRP), and to compare them with UFH and fondaparinux (a synthetic pentasaccharide that specifically enhances FXa inhibition). METHODS: Different LMWHs, UFH or fondaparinux were added to normal PRP. Thereafter, tissue factor-triggered thrombin generation was assessed using the Thrombogram-Thrombinoscope assay. RESULTS: At equivalent anti-FIIa activity concentrations, LMWHs and UFH exhibited similar inhibitory effects upon thrombin generation. However, when used at equivalent anti-FXa activity concentrations, tinzaparin was significantly more active than the other LMWHs at inhibiting thrombin generation, and had similar activity to that of UFH. Enoxaparin, nadroparin and dalteparin all showed similar inhibitory activities. In these experiments, bemiparin exhibited the lowest inhibitory effect on thrombin generation of all the LMWHs. At 0.1 microg mL(-1) (0.093 anti-FXa IU mL(-1)), fondaparinux inhibited the rate of thrombin generation by 50%. A 7-fold higher concentration of fondaparinux was required to inhibit the endogenous thrombin potential by 50%. CONCLUSIONS: LMWHs have a variable inhibitory effect on thrombin generation in vitro when compared by anti-FXa activity, but are similar when compared by their anti-FIIa activities. The rate of thrombin generation during the propagation phase, rather than the endogenous thrombin potential, is more sensitive to the anticoagulant activity of fondaparinux and the polysaccharide chains of LMWHs possessing only anti-FXa activity.

Risk factors for venous thromboembolism in children.

The incidence of venous thromboembolism (VTE) is increasing in children as a result of therapeutic advances and improved clinical outcome in primary illnesses that previously caused mortality. VTE is mostly diagnosed in hospitalized children, especially sick newborns with central venous catheters and older children with a combination of risk factors. Infants older than 3 months and teenagers are the largest groups developing VTE. The most important triggering risk factors are the presence of central venous lines, cancer and chemotherapy. Pathological conditions such as severe infection, sickle cell disease, trauma and antiphospholipid syndrome are associated with the presence of a hypercoagulable state in children. The thrombotic risk in otherwise healthy children with a single identified thrombophilic defect appears to be extremely low. Venous thromboembolism in pediatric patients is mainly caused by combinations of at least 2 prothrombotic risk factors for venous thromboembolic events in children are usually associated with underlying clinical conditions and a triggering risk factor. In addition, recurrence of VTE after withdrawal of anticoagulant treatment occurs in about 20% of patients after re-exposure to a triggering risk factor. A non negligible mortality and morbidity is related to VTE in childhood. This supports the need for international multicenter randomized clinical trials to determine optimal prophylactic and therapeutic treatment for children with VTE. Risk factor assessment for VTE in children has to be improved in order to optimize the prophylactic and therapeutic strategies. The specific evolutionary characteristics of the hemostasis in children has to be taken into consideration when a prophylactic or therapeutic strategy is applied.The incidence of venous thromboembolism (VTE) is increasing in children as a result of therapeutic advances and improved clinical outcome in primary illnesses that previously caused mortality. VTE is mostly diagnosed in hospitalized children, especially sick newborns with central venous catheters and older children with a combination of risk factors. Infants older than 3 months and teenagers are the largest groups developing VTE. The most important triggering risk factors are the presence of central venous lines, cancer and chemotherapy. Pathological conditions such as severe infection, sickle cell disease, trauma and antiphospholipid syndrome are associated with the presence of a hypercoagulable state in children. The thrombotic risk in otherwise healthy children with a single identified thrombophilic defect appears to be extremely low. Venous thromboembolism in pediatric patients is mainly caused by combinations of at least 2 prothrombotic risk factors for venous thromboembolic events in children are usually associated with underlying clinical conditions and a triggering risk factor. In addition, recurrence of VTE after withdrawal of anticoagulant treatment occurs in about 20% of patients after re-exposure to a triggering risk factor. A non negligible mortality and morbidity is related to VTE in childhood. This supports the need for international multicenter randomized clinical trials to determine optimal prophylactic and therapeutic treatment for children with VTE. Risk factor assessment for VTE in children has to be improved in order to optimize the prophylactic and therapeutic strategies. The specific evolutionary characteristics of the hemostasis in children has to be taken into consideration when a prophylactic or therapeutic strategy is applied.

The role of platelet factor 4 in platelet aggregation induced by the antibodies implicated in heparin-induced thrombocytopenia.

Heparin-induced thrombocytopenia (HIT) is a severe side effect of heparin treatment. Recent studies using immunological methods demonstrated that antibodies contained in plasma, or in purified total immunoglobulin (Ig)G from patients suffering HIT, recognize as target antigen the complex heparin/platelet factor (PF4). In the present study, the role of PF4 in in-vitro platelet aggregation induced by purified total IgG or platelet-poor plasma from patients suffering HIT was investigated. In order to demonstrate the functional role of PF4, an anti-PF4 antibody that specifically blocked PF4 was used. In an experimental system composed of washed platelet suspension, incubation of F(ab')2 fragments (0.125 microg/ml) of the polyclonal anti-PF4 antibody resulted in complete inhibition of platelet aggregation triggered by purified total IgG from patients suffering HIT and heparin. In platelet-rich plasma, a significantly higher concentration (4.25 microg/ml) of the anti-PF4 F(ab')2 was required to inhibit platelet aggregation induced by HIT-PPP and heparin. Intermediate concentrations of the anti-PF4 antibody partially inhibited platelet aggregation. In plasma milieu, the concentration of PF4 was about five-fold higher in comparison with that measured in the purified system. The intensity of platelet aggregation depended on the concentration of HIT-IgG. Platelet aggregation was abolished in the presence of high concentrations of heparin (superior or equal to 10 IU/ml). The present study shows that PF4 is essential for platelet aggregation triggered by the antibodies related to HIT in the presence of heparin. The concentration of PF4 that is available to bind with heparin or with the HIT-related antibodies is critical for platelet aggregation induced by HIT antibodies.

Comparative pharmacokinetics of LMWHs.

A variety of pharmaceutical preparations of low-molecular-weight heparins (LMWHs) are available. They belong to the same family of compounds-ie, heparin derivatives with a narrow distribution of mean molecular weights (MWs). LMWHs have different methods of preparation, which result in variations in mean MW, distribution of MW, and pharmacokinetic (PK) and pharmacodynamic (PD) profiles. The mean MW of these compounds ranges from 3,600 to 6,500 daltons. The ratio of anti-Xa (aXa) and anti-IIa (aIIa) activities of the different LMWHs ranges from 1.5 to >10. After subcutaneous (SC) injection of a prophylactic or therapeutic dose, the peak values for plasma aXa or aIIa activity may vary twofold to threefold because of differences in bioavailability, plasma clearance (Clplasma), and half-life (t1/2). The injection of equivalent amounts of product, based on aXa and aIIa international units (IU), may result in different areas under the curve for the respective activities. Although tinzaparin has a high aIIa specific activity per milligram (and consequently, a low aXa/aIIa ratio), SC injection of 40 mg of enoxaparin (4,000 aXa IU) results in a higher aXa peak value in patients with total hip replacement than 4,500 aXa IU of tinzaparin. Differences in aIIa and aXa peak activities are more striking when high doses of LMWHs are used. The activated partial thromboplastin time (aPTT) can be significantly prolonged, an effect that is related to aIIa and aXa activity. The volume of distribution of LMWHs is of the same order of magnitude as that of the plasma volume. The mean retention time of aXa activity varies from 5.2 (dalteparin) to approximately 7 h (enoxaparin, nadroparin). Bioavailability of prophylactic doses of LMWHs ranges from 86% (dalteparin) to 98% (enoxaparin, nadroparin). PK parameters appear to be minimally affected by a patient's age. The Clplasma is different for each LMWH: 16 mL/min enoxaparin, 21 mL/min nadroparin, 33 mL/min dalteparin, 19 mL/min reviparin, and 22 mL/min tinzaparin. Accumulation of product has been observed for almost all LMWHs in patients with renal insufficiency. LMWHs are effective and safe for treatment or prophylaxis of venous thromboembolism during pregnancy, because they do not cross the placenta. No data are available regarding the passage of LMWHs into the milk in lactating women. Although LMWHs are also effective in prevention and treatment of thromboembolic disease in children, optimal use of these agents in pediatric patients has not been determined. In summary, the PD and PK of LMWHs have been well documented and have demonstrated that LMWHs have a more predictable response, a greater bioavailability, and a longer aXa t1/2 than unfractionated heparin. However, their distribution of MW affects their physicochemical and biological properties, as well as PK characteristics. The concept of aXa/aIIa ratio (determined in vitro) does not account for the differing PK of aXa and aIIIa activity in circulating blood.

Comparative effects of synthetic pentasaccharide, low-molecular-weight heparin, unfractionated heparin and recombinant hirudin on the generation of factor VIIa and prothrombin activation after coagulation of human plasma.

We studied the effect of synthetic pentasaccharide, a low-molecular-weight heparin (enoxaparin), unfractionated heparin and recombinant hirudin on the generation of factor VIIa (FVIIa) and prothrombin activation after in-vitro clotting of human platelet-poor plasma. FVIIa was measured with a new clotting assay that uses recombinant tissue factor truncated to interact only with FVIIa. Residual prothrombin was measured using the conventional clotting assay. FVIIa and residual FII were measured in the liquid - called pseudo-serum (psi-serum) - obtained 1 h after clotting of normal platelet-poor plasma. A kinetic study of the generation of FVIIa was also performed. Coagulation was initiated by triggering the extrinsic, the intrinsic and both associated clotting pathways. Levels of FVIIa in the psi-sera (55+/-15, 258+/-18, and 164+/-18 ng/ml, in the extrinsic, intrinsic and intrinsic + thromboplastin psi-serum respectively; values are means+/-SEM) were significantly increased compared with those in the platelet-poor plasma (3 ng/ml). Pentasaccharide, low-molecular-weight heparin and unfractionated heparin inhibited the generation of factor VIIa or its activity, or both, in a dose-dependent manner in all the experimental systems (60-90% inhibition). A kinetic study revealed that the inhibition of the generation of FVIIa by pentasaccharide and heparins starts 1 min after triggering either the extrinsic or the intrinsic clotting pathway. The downregulation of FVIIa by heparins was effected mainly by their anti-Xa activity, but also by their inhibitory effect on the generation of prothrombinase. Pentasaccharide, enoxaparin and unfractionated heparin significantly inhibited prothrombin activation in both extrinsic and intrinsic experimental system. Hirudin had no inhibitory effect either on the generation of FVIIa or on prothrombin activation in any experimental system.

Treatment with LMWHs inhibits factor VIIa generation during in vitro coagulation of whole blood.

The role of factor VII and activated factor VII (VIIa) is considered to be crucial in the coagulation process. The efficacy of low molecular weight heparins (LMWHs) in the prevention and treatment of thromboembolic episodes has been established in numerous controlled therapeutic trials. However, the mechanisms of their antithrombotic action are still disputed. Heparins exert their anticoagulant effect by enhancing ATIII inhibitory action on factor Xa and thrombin, which results in decreased factor X activation, prothrombinase formation, prothrombin activation and thrombin generation. Moreover, it is clearly established that both kinds of heparins (unfractionated heparin and LMWHs) induce the release of tissue factor pathway inhibitor (TFPI). Therefore, they are involved indirectly in tissue factor (TF)/factor VIIa complex inhibition by the TFPI/factor Xa complex. Factor VII activation is an essential step in the process of blood coagulation and it plays an important role in thrombogenesis. A method for the measurement of factor VIIa has been recently developed. A study on the effects of antithrombotic drugs, as heparins, on factor VIIa generation might allow to better understand the mechanisms that regulate its activation. We investigated ex vivo the effect of treatment with LMWHs on factor VIIa generation during in vitro coagulation of whole blood in order to clarify if LMWHs interfere with factor VIIa generation.

Mechanisms for the antithrombotic activity in man of low molecular weight heparins (LMWHs).

Although LMWH have been widely used for several years, the mechanisms of their anti-thrombotic action are not well understood. This is due in part to the misconception that in vitro coagulation results can be extrapolated to the in vivo antithrombotic condition. Thus, the mode of action of heparins on thrombin generation in plasma after addition of increasing amounts of unfractionated heparin (UH) or LMWH has been investigated in several studies, but a distinction has to be made between the effects on the intrinsic and the extrinsic system. The same applies for experiments conducted with platelet-poor plasma (PPP) and platelet-rich plasma (PRP). These experiments show that inhibition of prothrombin activation in PPP is more pronounced in the intrinsic system than in the extrinsic system for both types of heparin. This inhibition has been attributed mainly to their antithrombin activity which reduces factor V and factor VIII activation and its related positive feedback on thrombin formation. The comparison of the effects of low doses of LMWH and UH in citrated PRP indicate that LMWH are more active than UH because they are more resistant to platelet neutralization by platelet factor 4. Moreover, in vitro study will neglect the role of pharmacokinetic parameters which are important determinants of the antithrombotic activity of heparins. Another important difference between in vitro and in vivo studies lies in the fact that sc injection of both heparins will release tissue factor pathway inhibitor (TFPI) in the blood. We have used native whole blood for in vitro and ex vivo experiments. This offers the advantage of studying heparin activity in the presence of platelets and calcium. In this condition the inhibition of pro-thrombin and factor VII activation during blood coagulation in a glass tube (intrinsic system) was judged by measuring residual prothrombin and factor VIIa in serum obtained 2 to 4 hours after clotting. At prophylactic doses, LMWHs in contrast to UH significantly inhibit prothrombin activation. Although thrombin inhibition seems essential for the antithrombotic activity of both heparins, reduction of thrombosis is a global effect to which "both anti-IIa and anti-Xa activity contribute but to a different exent" (C. Hemker et al.). It should be noted that the clearance half-life of anti-Xa activity is significantly longer than that of anti-IIa. The efficacy of a single daily injection of LMWH in the prophylaxis of thrombosis is not logical in light of the short half-life of anti-IIa activity.(ABSTRACT TRUNCATED AT 400 WORDS)