Neutralization of a low molecular weight heparin (LHN-1) and conventional heparin by protamine sulfate in rats

The neutralization of a low molecular weight heparin (LHN-1) and conventional heparin (CH) by protamine sulfate has been studied in vitro and in vivo. In vitro, the APTT activity of CH was completely neutralized in parallel with the anti-Xa activity. The APTT activity of LHN-1 was almost completely neutralized in a way similar to the APTT activity of CH, whereas the anti-Xa activity of LHN-1 was only partially neutralized. In vivo, CH 3 mg/kg and LHN-1 7.2 mg/kg was given intravenously in rats. The APTT and anti-Xa activities, after neutralization by protamine sulfate in vivo, were similar to the results in vitro. In CH treated rats no haemorrhagic effect in the rat tail bleeding test and no antithrombotic effect in the rat stasis model was found at a protamine sulfate to heparin ratio of about 1, which neutralized APTT and anti-Xa activities. In LHN-1 treated rats the haemorrhagic effect was neutralized when APTT was close to normal whereas higher doses of protamine sulfate were required for neutralization of the antithrombotic effect. This probably reflects the fact that in most experimental models higher doses of heparin are needed to induce bleeding than to prevent thrombus formation. Our results demonstrate that even if complete neutralization of APTT and anti-Xa activities were not seen in LHN-1 treated rats, the in vivo effects of LHN-1 could be neutralized as efficiently as those of conventional heparin. The large fall in blood pressure caused by high doses of protamine sulfate alone was prevented by the prior injection of LHN-1.     

The effect of low molecular weight heparin on experimental thrombosis and haemostasis--the influence of production method

Three low molecular weight heparins prepared by enzymatic depolymerization, chemical degradation, and fractionation, respectively were studied in experimental thrombosis and haemostasis models in vivo and in biological assays in vitro. The three low molecular weight heparins, which had comparable molecular weight distributions, showed very similar activities both in vitro and in vivo. All three showed dose dependent thromboprophylactic effect. The antithrombotic effects of the low molecular weight heparins and conventional heparin administered in the same dose (30 XaI u/kg b.w.) did not differ. Neither LMW heparin nor conventional heparin (60 or 90 XaI u/kg b.w.) showed significant effects on the haemostatic plug formation time in the rabbit mesenteric microcirculation.

These experiments confirm that low molecular weight heparins are potential antithrombotic drugs, which by intravenous administration have effects similar to those of standard heparin. The method of preparation seems to be of no or minor importance, at least if the molecular weight distributions of the products are similar.     

Neutralization of the antithrombotic effects of heparin and Fraxiparin by protamine sulfate.

In general, the in vitro anti Xa activity of low molecular weight heparins is neutralized to a lesser degree than the anti Xa activity of unfractionated heparin. To determine whether these differences occur in vivo, a rabbit stasis thrombosis model and a rat laser-induced thrombosis model were utilized. In the laser model, a similar degree of neutralization of the antithrombotic activity of heparin and Fraxiparin was obtained. However, in the stasis thrombosis model, significant antithrombotic activity of Fraxiparin remained after equigravimetric protamine administration. Ex vivo APTT, thrombin time, Heptest, amidolytic anti Xa and anti IIa assays were performed. A coefficient (r = .806) was obtained for the correlation of Heptest activity to antithrombotic effect in the stasis thrombosis model, while the coefficients obtained for the other tests ranged from .152-.570. However, after neutralization by protamine, the thrombin time exhibited the highest correlation coefficient (r = .685) between ex vivo activity and residual antithrombotic effect. Since Fraxiparin retains antithrombotic activity after protamine administration, clinical benefit may be observed for this low molecular weight heparin as compared to unfractionated heparin after neutralization.     

A comparison of the anti thrombotic and haemorrhagic effects of low molecular weight heparin fractions: The influence of the method of preparation

Bleeding is an important complication of heparin therapy. A number of low molecular weight heparin fractions produce less bleeding than standard heparin for an equivalent antithrombotic effect in experimental animals. Low molecular weight heparin fractions and fragments are produced by a number of different procedures but their relative effects on haemostasis and thrombosis have not been evaluated. We have compared the antithrombotic and haemorrhagic effects of two low molecular weight heparin fragments and of a heparinoid with porcine mucosa heparin and related these in vivo findings to the results of ex vivo tests of blood coagulation and in vitro tests of platelet function. Haemorrhage was assessed using a rabbit ear bleeding model. The antithrombotic effects were assessed by measuring inhibition of a tissue thromboplastin-induced jugular vein thrombus and by inhibition of fibrin and platelet accumulation in an arterial-venous shunt. The ex vivo anticoagulant effects were     

Low molecular weight heparin Novo (LHN-1) does not cross the placenta during the second trimester of pregnancy

Unfractionated heparin (UF-H) has been the drug of choice for the treatment of thromboembolic disorders during pregnancy. Low molecular weight heparin (LMW-H) preparations may present some advantages over UF-H. They have longer half-lives and a better bioavailability after subcutaneous (s. c.) injection and may cause less bleeding. It has not yet been established whether LMW-H Novo (LHN-1) crosses the placenta. 17 women admitted for abortion during the second trimester of pregnancy (induced by application of prostaglandine PGE2 gel at a concentration of 0.25 mg/ml into the cervix) were given s. c. 35 anti-Xa units per kg of body weight of LHN-1 (Novo). 10 patients not receiving LHN-1 and their fetuses served as a control group. 7 women in whom the time interval between injection of LHN-1 and expulsion of the fetus was less than 3 h or more than 7 h were excluded from further study. In one fetus blood collection failed. Anti-Xa and anti-IIa levels increased approximately ten-fold in women receiving LHN-1 [anti-Xa units/ml from 0.02 +/- 0.01 (mean +/- SD) to 0.17 +/- 0.01, p less than 0.001; anti-Ha units/ml from less than 0.01 +/- 0.01 to 0.07 +/- 0.03], but remained below the detection limit in their fetuses as well as in the women and fetuses of the control group. We conclude that LHN-1 at these doses does not cross the placenta during the second trimester of pregnancy to suggest that LHN-1 may be a safe alternative to heparin in the management of the thromboembolic complications during pregnancy.     

Effects of immuno-potent drugs and their association with an unfractionated heparin on an experimental venous thrombosis.

Immuno-potent drugs are largely used in human medicine. The aim of this study was to determine the role of two immuno-modulators (sodium diethyl-dithiocarbamate, RU 41 740) and two immuno-suppressors (methylprednisolone, cyclosporin A) alone or in association with an unfractionated heparin (Calciparin), on an experimental venous thrombosis made by vena cava ligation in male Wistar rats. Each immuno-potent drug was administered for six days before the thrombus induction at the same dosage (10mg/kg b.w.), and the Calciparin, used as treatment of the thrombosis, was administered two hours after the thrombus induction at the dose of 1mg/kg b.w. Immuno-treatment potentiated thrombus formation: the increase in thrombus weight was greater with immuno-modulators (43% on average in comparison with placebo) than with immuno-suppressors (20%). In association with Calciparin the antithrombotic effect was also potentiated and more marked with the immuno-modulators than with immuno-suppressors. An increase in circulating monocytes was observed in all groups whether Calciparin was present or not. Coagulation tests were not affected by immuno-therapy. However, immuno-modulators led to an inhibition of platelet aggregation. In conclusion, this trial seems to show a probable effect of immunological cells in thrombosis and in the antithrombotic effect of heparin, but the mechanism involved is not yet determined.     

Effects of heparin, dermatan sulfate and of their association on the inhibition of venous thrombosis growth in the rabbit.

This study compares the ability of unfractionated heparin, of dermatan sulfate, and of their simultaneous administration delivered as continuous intravenous infusion or as a single bolus injection to inhibit the growth of a standardized venous thrombosis in the rabbit. When delivered as continuous intravenous infusion for 4 h, heparin and dermatan sulfate inhibited thrombus growth in a dose dependent manner. The maximum antithrombotic effect of heparin was achieved at the dose of 0.15 mg kg-1 h-1 (25 U kg-1 h-1) which generated a mean plasma concentration of 1.8 micrograms ml-1 (0.31 U ml-1) and a 1.8 fold prolongation of the activated partial thromboplastin time (APTT) in comparison to the pretreatment value. A comparable antithrombotic effect was obtained with dermatan sulfate at the dose of 2 mg kg-1 h-1. This dose generated a mean plasma concentration of 30 micrograms ml-1 and a 1.3 fold APTT prolongation. Increasing these doses up to 10 fold did not improve the antithrombotic effect which did not overpass 60-70% of the controls. When the compounds were delivered simultaneously, the maximum antithrombotic effect (64%) was obtained with the following association: 0.06 mg kg-1 h-1 (10 U kg-1 h-1) for heparin and 1 mg kg-1 h-1 for dermatan sulfate. Increasing these doses up to 4 to 5 fold did not improve the antithrombotic effect. Heparin, dermatan sulfate and the association of both were also delivered as single bolus injections and the resultant antithrombotic effect was determined 4 h after saline infusion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Low-affinity heparin potentiates the action of high-affinity heparin oligosaccharides

Previous studies have shown that high-affinity (HA) heparin oligosaccharides, with molecular weights of 3,000-5,000, were less effective than unfractionated heparin in preventing serum-induced venous thrombosis in rabbits, using a Wessler stasis model. In the present study, a larger high-affinity fragment (M.Wt. 6,000-6,500) was also found to be less effective than unfractionated heparin as an antithrombotic agent. However, addition of 80 micrograms/kg low affinity (LA) heparin to 80 micrograms/kg of this HA fragment significantly potentiated its antithrombotic activity, and the antithrombotic action of the mixture was equivalent to that of unfractionated heparin. Significant potentiation of antithrombotic activity was also observed on the addition of LA heparin to a HA decasaccharide (M.Wt. 3,000-3,500) with anticoagulant activity only against Factor Xa. The LA heparin content of low molecular weight heparin fractions appears to be an important determinant of their antithrombotic activity.     

Pharmacological profile of the chemically synthesized antithrombin III binding fragment of heparin (pentasaccharide) in rats

The antithrombotic and haemostatic effects of a pentasaccharide, the chemically synthesized antithrombin III (AT-III) binding fragment of heparin (PENTA), were investigated in rats in comparison with heparin. PENTA showed a dose-dependent antithrombotic effect in three thrombosis models in which thrombus formation was induced by different triggers. PENTA was consistently less potent than heparin in these models if doses were expressed in anti-Xa U/kg but PENTA showed more or less the same potency as heparin if doses were expressed in mg/kg. The antithrombotic effect of PENTA was strongly related to its anti-Xa activity as judged from its antithrombotic potency in the various models and from the time courses of both activities. PENTA caused a dose-dependent increase in blood loss in a bleeding model but the dose response curve was rather flat; the effect of PENTA on blood loss was small compared to that of heparin. The duration of action of PENTA as measured by the plasma anti-Xa levels was long compared to that of heparin and the duration of the antithrombotic effect was that expected on the basis of the plasma anti-Xa levels. Finally, PENTA showed comparable antithrombotic activity after s.c. and i.v. administration, as expected because of the approximately 100% bioavailability of the anti-Xa activity after s.c. administration.     

Molecular weight dependent tissue factor pathway inhibitor release by heparin and heparin oligosaccharides

Heparin and low molecular weight heparins exert their vascular effects by mobilizing tissue factor pathway inhibitor (TFPI) from the vascular endothelium into the blood circulation. We compared the influence of molecular weight on the TFPI release by heparin and its fractions in a non-human primate model. Primates were treated with unfractionated heparin, a low molecular weight heparin (gammaparin), or a heparin-derived oligosaccharide mixture (C3). Endothelial TFPI release was determined using both immunologic and functional assays. After intravenous administration, all agents significantly increased TFPI levels (p<0.05) in a dose dependent manner. The increase produced by unfractionated heparin and gammaparin was greater than that by C3 at an equal dosage (p<0.05). With subcutaneous injection, all agents produced less TFPI release. Repeated administration of heparin-derived oligosaccharides gradually increased TFPI release. A 1.89 fold increase in TFPI levels was observed 4 days after C3 treatment (2.5 mg/kg). Our findings indicated that TFPI release is dependent on the molecular weight of heparin and its derivatives. Heparin oligosaccharides exert their vascular effects through increased TFPI release after long-term repeated administration.     

Comparison of antithrombotic and hemorrhagic effects of edoxaban,a novel factor Xa inhibitor,with unfractionated heparin,dalteparin, lepirudin and warfarin in rats

Background

Edoxaban is a novel, potent and orally active direct Factor Xa (FXa) inhibitor under development for prophylaxis and treatment of thromboembolic diseases. Properties of dose response and margin of safety of anticoagulants are the key factors for a positive risk/benefit of novel oral anticoagulants.

Objectives

To compare the dose response of antithrombotic effect and margin of safety between antithrombotic and hemorrhagic effects of edoxaban with conventional anticoagulants, unfractionated heparin (UFH), dalteparin (low molecular weight heparin), lepirudin, and warfarin in rat models of thrombosis and hemorrhage.

Methods

Rats were treated with edoxaban, UFH, dalteparin, and lepirudin by continuous intravenous (iv) infusion, or with oral warfarin for 4 days before inducing thrombosis or bleeding. Thrombosis was induced by inserting a platinum wire into the inferior vena cava for 60 minutes. Tail template bleeding time was measured after making an incision on the tail.

Results

In rats, iv infusion of edoxaban inhibited venous thrombosis in a dose-dependent manner. The other anticoagulants also exerted dose-dependent antithrombotic effects. The slopes of the dose–response curves of edoxaban were significantly shallower than the slopes of UFH, dalteparin, and warfarin. At supratherapeutic doses, edoxaban prolonged bleeding time in a rat tail bleeding model. To determine bleeding risk, the margins between antithrombotic and bleeding-time prolongation were compared. The margins of safety of edoxaban were wider than those of UFH, dalteparin, lepirudin, and warfarin.

Conclusions

These results suggest that edoxaban may be more easily controlled and has the potential for a more positive risk/benefit ratio compared to conventional anticoagulants.     

The relative antithrombotic effectiveness of heparin, a low molecular weight heparin, and a pentasaccharide fragment in an animal model

The antithrombotic efficacy of unfractionated heparin (UFH), a low molecular weight heparin (LMWH) and a synthetic pentasaccharide (PENTA) has been compared in an animal model for stasis thrombosis. We have also compared the relative ability of these three agents to impair thrombin generation in vitro and in vivo, and measured their effects on anti-Xa activity and thrombin clotting times. UFH, LMWH and PENTA all had the capacity to impair thrombogenesis, although there were marked differences in their relative effectiveness. Reduction of thrombin generation to 20% of control values was closely correlated with the prevention of thrombosis after 20 minutes' stasis, but this was only achieved with UFH. The same dry weight dose of LMWH or PENTA reduced thrombin generation to about half control values, and neither significantly impaired thrombus formation after 20 minutes' stasis. Impaired thrombin generation correlated better than anti-Xa activity with prevention of stasis thrombosis. In this model, UFH was clearly superior to LMWH and PENTA as an antithrombotic agent.     

Antithrombotic activity of recombinant hirudin in the rat: a comparative study with heparin

Hirudin, a potent inhibitor of blood coagulation, differs in its antithrombotic activity according to the source of isolation. It was therefore of interest to study recombinant hirudin. Hirudin was obtained by a genetic process from E. coli. Its antithrombotic action was investigated in an experimental (rat) model of venous thrombosis and was compared to heparin whose results are known. Heparin (400 micrograms/kg) and hirudin (12.5, 25 and 50 micrograms/kg) present an antithrombotic effect and limit the extension of an existing thrombus (p less than 0.05). Higher heparin dosages increase the bleeding time mean value (p less than 0.05) whereas hirudin does not. So, recombinant hirudin presents the same antithrombotic action as heparin but with very inferior dosage. This activity seems not dose-dependent and is associated to weak hemorrhagic effects.     

Comparative antithrombotic and hemorrhagic effects of dermatan sulfate, heparan sulfate and heparin

Dermatan sulfate and heparan sulfate are currently under development as potential antithrombotic drugs. In our studies we have evaluated the relative antithrombotic and bleeding effects of these two agents in comparison to heparin, the commonly used anticoagulant. In a rabbit model of stasis thrombosis, a 500 micrograms/kg IV dose of dermatan or heparan produced 50-60% inhibition of induced in vivo thrombosis. At 750 micrograms/kg, both agents produced greater than 75% inhibition of thrombosis. Ex vivo measurement of plasma samples obtained from these animals demonstrated variable clotting effects at the lower dose and a proportional increase in the clotting activity at the higher dose. No anti-Xa or anti-IIa activity was observed in any sample. In contrast, animals treated with only 100 micrograms/kg heparin showed complete inhibition of induced thrombosis with significant anti-Xa and anti-IIa activities as well as prolongation of the clotting assays (APTT, TT and HeptestR). In the hemorrhagic studies utilizing a rabbit ear blood loss model, a 5.0 mg/kg IV dose of dermatan or heparan produced much less blood loss than heparin. On a gravimetric basis, dermatan and heparan were 10 fold less hemorrhagic than heparin. These results indicate that the relative contribution of plasmatic and cellular sites to the mediation of the antithrombotic action of heparin, dermatan and heparan differ. Although the antithrombotic dosages of dermatan and heparan are higher than heparin, due to the different mechanisms of action of each agent, a better safety index may be provided by dermatan and heparan than heparin.     

A comparative study of recombinant hirudin and standard heparin in the Wessler model.

The in vitro anticoagulant activity of recombinant desulphated hirudin (HBW 023) and its antithrombotic activity in a rabbit venous stasis model were assessed in comparison to unfractionated heparin (UH). The specific activity of r-hirudin in rabbit plasma is similar to that of unfractionated heparin on a weight basis when using the whole blood clotting time or APTT, while it was five times more potent according to the thrombin clotting time (TCT). Forty-eight (6x8) anaesthetized New Zealand male rabbits were randomized to receive HBW 023 (12.5, 25, 50, 100, 200, 400 micrograms.kg-1), standard heparin (90 micrograms.kg-1) or placebo. Five minutes after administration of the drug, the experimental thrombosis was induced by an injection of glass activated overnight human serum into the marginal vein of the ear and ligation of the jugular vein (Wessler model). The jugular vein was removed after 10 min stasis and examined by a researcher unaware of the treatment administered. In the Wessler stasis model the fresh thrombus weight and a score as well as the circulating level of r-hirudin using a chromogenic substrate assay were used to determine the inhibitory effect of the drug. Highly significant inverse correlations were found between fresh thrombus weight and the injected doses as well as r-hirudin plasma levels. The ID50 which was the dose of the drug that induced a complete inhibition of thrombosis in 50% of the dose group tests was about 200 micrograms.kg-1.(ABSTRACT TRUNCATED AT 250 WORDS)     

Discordance between the anti-Xa activity and the antithrombotic activity of an ultra-low molecular weight heparin fraction

The relationship between the in vivo antithrombotic effect of heparin and ex vivo anti-Xa activity has been investigated using an animal thrombosis model. Three low molecular weight heparins were compared with the standard heparin from which they were fractionated. All four heparins showed a dose-dependent antithrombotic effect enabling the relative antithrombotic and anti-Xa activities to be compared over a dosage range. A correlation between ex vivo anti-Xa heparin levels and antithrombotic effect was demonstrated for the standard (MW 16,000), intermediate (MW 7,600) and low (MW 4,600) molecular weight heparins but not for the ultra-low molecular weight (MW 3,000) fraction. The lack of relationship between anti-Xa activity and inhibition of thrombosis for the very low molecular weight fraction indicates that a very high anti-Xa activity (measured in vitro or ex vivo) is not always predictive of in vivo antithrombotic efficacy. These findings suggest that other properties of low molecular weight heparins contribute to their antithrombotic effectiveness.     

Comparison of the in vivo hemorrhagic and antithrombotic effects of a low antithrombin-iii affinity heparin fraction

Antithrombin III (ATIII) affinity chromatography of commercial grade heparin yields fractions of high and low affinity for ATIII. In vitro, the high affinity fraction accounts for most of the anticoagulant effect while there is evidence that the low affinity material interferes with platelet function. We have studied the relative antithrombotic and hemorrhagic effects of low affinity heparin. The low affinity heparin fraction, specific activity 43 USP units/mg, was compared with standard heparin (150 USP units/mg) in rabbit experimental models. A residual 12.5% by weight of this low affinity heparin showed high affinity for ATIII. Inhibition of thrombosis in a stasis-hypercoagulability model was directly related to the weight (mg) of high affinity material in each of the heparins. In the bleeding model, when similar weights (mg) of high affinity material were infused, significantly more bleeding was demonstrated with the low affinity fraction which contained a 5-fold excess by weight of low affinity material. We have demonstrated that a low affinity heparin depleted of in vitro anticoagulant and in vivo antithrombotic activity significantly contributes to hemorrhage.     

Experimental studies on the relative efficacy of dermatan sulphate and heparin as antithrombotic agents

In this study, the anticoagulant and antithrombotic properties of unfractionated heparin (UFH) and dermatan sulphate (DS) were compared. The ability of UFH and DS to impair thrombin generation in vitro and in ex vivo plasma samples was also studied. DS has minimal anticoagulant activity by conventional assays but impairs thrombin generation both in vitro and in ex vivo plasma samples. However, thrombin generation could not be suppressed below about 35% of control values at all doses of DS studied. While this was sufficient to impair experimental venous thrombosis during 10 minutes' stasis, DS was ineffective in preventing thrombosis following 20 minutes' stasis in doses up to 1.25 mg/kg. In contrast, 1 microgram/ml of UFH completely suppressed thrombin generation in vitro, and 150 micrograms/kg prevented thrombogenesis over a period of 20 minutes' stasis. Neither drug prolonged the bleeding time (BT) at effective antithrombotic doses, but 2.5 mg/kg UFH significantly increased the BT, whereas DS did not. While DS has antithrombotic activity, it is less effective than UFH in inhibiting thrombin generation, and as an antithrombotic agent.     

Low molecular weight heparin and the heparin mobilisable pool of platelet factor 4 are reduced in young survivors of myocardial infarction

The platelet factor 4 (PF4) mobilisation properties of low molecular weight heparin (Fraxiparine, Sanofi Winthrop, France) in young survivors of myocardial infarction (YSMI) and healthy volunteers have been investigated. The study group consisted of 42 YSMI less than 44 years old, all of them with angiographically proven occlusive coronary artery disease, studied 6 to 24 months after the acute event. The control group was composed of 30 healthy men of similar age. Subjects from the study and control groups were allocated to the following subgroups: those receiving 60 or 120 IU/kg b.w. of standard heparin (Polfa Kutno, Poland) and those receiving 60, 120 or 180 IC anti-Xa U/kg b. w. of low molecular weight heparin (Fraxiparine, Sanofi Winthrop, France) as a single intravenous injection. Additionally, in five YSMI patients the influence of prolonged aspirin administration (0.3g daily for more than 30 days) on the Fraxiparine mobilisable pool of PF4 and β-thromboglobulin (β-TG) concentration in the plasma was determined after injection of 180 IC anti-Xa U/kg b.w. of the drug. The PF 4 and β-TG concentration in the plasma was evaluated using enzyme immunoassay methods before heparin or Fraxiparine intravenous injection and 2, 5, 10, 20, 30 and 60 min after. In both, the control and YSMI groups baseline PF4 levels were found to be normal. Moreover, similar marked dose-dependent increases of PF4 concentration in the plasma measured after 60 and 120 IU/kg b.w. of heparin as well as after 60 and 120 IC anti-Xa U/kg b.w. of Fraxiparine was found. The administration of 120 IU/kg b.w. of heparin resulted in a reduced rise in plasma PF 4 in YSMI as compared to healthy controls. The same phenomenon was observed when 180 IC anti-Xa U/kg b. w. of Fraxiparine was injected intravenously. In YSMI treatment with aspirin had no influence on the Fraxiparine mobilisable pool of PF 4 or the β-TG concentration in the plasma. These results suggest that mobilisable pool of platelet factor 4 in young survivors of myocardial infarction derives from the “nonplatelet pool” and that reduction of heparin- or Fraxiparine-releasable pool of PF4 may reflect an impaired endothelium function, probably due to atherosclerosis.     

The effect of unfractionated vs. low molecular weight heparin on tissue factor pathway inhibitor levels in hospital inpatients.

Although heparin is widely used as an antithrombotic agent, its multiple mechanisms of action are not fully defined. Recent work has suggested that tissue factor pathway inhibitor (TFPI) may contribute to the antithrombotic activity of heparin by inhibiting the extrinsic pathway of coagulation. We have investigated the effect of heparin on TFPI and have found that when unfractionated heparin is given by continuous intravenous infusion to hospitalized inpatients, TFPI levels increase 2.3-fold and remain high as long as heparin is continued, but return to baseline levels soon after the infusion is stopped. In contrast, therapeutic doses of the low molecular weight heparin, dalteparin, resulted in significantly less TFPI induction. Given the increasing number of studies establishing the clinical efficacy of low molecular weight heparins as antithrombotic agents, these results suggest that TFPI may not be a major contributor to the antithrombotic effect of heparin.