Strong Correlation of High Endogenous Plasma Levels of Tissue Factor Pathway Inhibitor (TFPI) with Poor Blood Clotting and Corrective Action of BAX 513 Under FVIII-Inhibited Conditions

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 1201-1201
Author(s):  
Michael Dockal ◽  
Monika Gorczyca ◽  
Sabine Knappe ◽  
Michael Palige ◽  
Hartmut J. Ehrlich ◽  
...  
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Plasma Levels ◽  
Thrombin Generation ◽  
Blood Clotting ◽  
Sulfated Polysaccharides ◽  
Plasma Samples ◽  
Extrinsic Pathway ◽  
Human Factor Viii ◽  
Thrombin Formation

Abstract Abstract 1201 TFPI is the major physiological inhibitor of the extrinsic pathway of blood coagulation. Thus, blocking TFPI activity is a possible approach to treat bleeding disorders such as hemophilia A and B. BAX 513, a fucoidan derived from the brown seaweed L. japonica, and other non-anticoagulant sulfated polysaccharides (NASPs) improve coagulation in hemophilic blood and plasma (Liu et al. Thromb Haemost 2006;95:68). This procoagulant activity of NASPs can at least partially be attributed to the inhibition of TFPI. For this study, we predicted that endogenous TFPI levels are associated with decreased hemostatic capacity under hemophilic conditions. We correlated clotting parameters measured by global hemostatic assays with the total and full-length (FL) TFPI levels in human plasma samples in the absence or presence of BAX 513. Tissue factor-triggered coagulation of normal and FVIII-inhibited plasma or blood from 30 healthy subjects was monitored by calibrated automated thrombograph (CAT) assay and rotation thromboelastometry (ROTEM). The experiments were performed with or without factor VIII blockade with a goat anti-human Factor VIII antibody to simulate acquired hemophilia. The total and FL-TFPI plasma levels were quantified by ELISA. We observed longer clotting and clot formation times by ROTEM and decreased thrombin generation in the presence of high TFPI levels in normal plasma (p<0.05). These correlations became substantially stronger when FVIII was inhibited (reaching up to r2= 0.64; p<0.001). In the presence of BAX 513 (0.1–1.2 μg/mL), most plasma samples showed a pro-coagulant response with an at least 50% increase in thrombin peak and a decrease in time to peak. The BAX 513-mediated increase in thrombin generation correlated strongly with the individual FL-TFPI plasma level. The effect was even more apparent when FVIII was inhibited, where the extrinsic pathway is the only driver of thrombin formation. These data indicate that high endogenous TFPI levels critically compromise hemostasis in acquired factor VIII deficiency and that TFPI is a threshold factor for the intrinsic amplification of thrombin formation. As low TFPI levels are associated with increased blood clotting, TFPI inhibition is a rationale treatment approach in patients with hemophilia. Importantly, our findings validate the inhibition of TFPI activity as a mode of action for BAX 513 and related pro-coagulant compounds. Disclosures: Dockal: Baxter Innovations GmbH: Employment. Gorczyca:Medical University of Vienna: Employment. Knappe:Baxter Innovations GmbH: Employment. Palige:Baxter Innovations GmbH: Employment. Ehrlich:Baxter Innovations GmbH: Employment. Scheiflinger:Baxter Innovations GmbH: Employment.

scholarly journals Sulfated agaran with 4,6-pyruvated form from red seaweed Acanthophora muscoides attenuates thrombin formation: in vitro and ex vivo studies

2021 ◽  
Vol 43 ◽  
pp. e55043
Author(s):  
José Ariévilo Gurgel Rodrigues ◽  
Johnny Peter Macedo Feitosa ◽  
Sandra de Aguiar Soares ◽  
Norma Maria Barros Benevides
Keyword(s):  
Thrombin Generation ◽  
Ex Vivo ◽  
Polyacrylamide Gel Electrophoresis ◽  
Deae Cellulose ◽  
Continuous Model ◽  
Sulfated Polysaccharides ◽  
Extrinsic Pathway ◽  
Plasma Fraction ◽  
Thrombin Formation

In vitro studies have described the sulfated agaran from Acanthophora muscoides as an intrinsic inhibitor of thrombin generation (TG), but not in ex vivo assay. This investigation partially characterized a pyruvate fraction with in vitro and ex vivo effects on an intrinsic/extrinsic pathway-induced thrombin generation (TG) continuous model using 36 or 60-fold diluted mice or defibrinated, normal human plasma. Fraction separated by DEAE-cellulose chromatography exhibited charge homogeneity and non-sulfated polysaccharides (<100 kDa) by agarose and polyacrylamide gel electrophoresis, respectively, using Stains-all alone. Fourier Transform Infrared and Nuclear Magnetic Resonance studies indicated a 4,6-pyruvated agaran-structure. The fraction and heparin had no effect on prothrombin time, but there was a preponderant intrinsic rather than extrinsic pathway inhibition in TG assay; themselves, acting on both free and fibrin bound thrombin activity without chromogenic substrate interaction. Both fractions, desulfated and native, anticipated and induced thrombin formation in activators-devoid or normal plasma. In addition, mice pretreated with fraction (20 mg kg-1, intraperitoneally) reduced intrinsically plasma TG ex vivo after 2h. Heparin suppressed TG in vitro, but induced it ex vivo. Therefore, agaran from A. muscoides blocks TG on in vitro and ex vivo studies, suggesting to evaluate the blood coagulability status.

scholarly journals In Hemophilia Α Plasma Treated with Emicizumab, Factor IX Activation By Factor VIIa Drives Thrombin Generation

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 17-17
Author(s):  
Dougald Monroe ◽  
Mirella Ezban ◽  
Maureane Hoffman
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Plasma Levels ◽  
Thrombin Generation ◽  
Hemophilia A ◽  
Factor Viia ◽  
Factor Ix ◽  
Factor X ◽  
Dose Dependent

Background.Recently a novel bifunctional antibody (emicizumab) that binds both factor IXa (FIXa) and factor X (FX) has been used to treat hemophilia A. Emicizumab has proven remarkably effective as a prophylactic treatment for hemophilia A; however there are patients that still experience bleeding. An approach to safely and effectively treating this bleeding in hemophilia A patients with inhibitors is recombinant factor VIIa (rFVIIa). When given at therapeutic levels, rFVIIa can enhance tissue factor (TF) dependent activation of FX as well as activating FX independently of TF. At therapeutic levels rFVIIa can also activate FIX. The goal of this study was to assess the role of the FIXa activated by rFVIIa when emicizumab is added to hemophilia A plasma. Methods. Thrombin generation assays were done in plasma using 100 µM lipid and 420 µM Z-Gly-Gly-Arg-AMC with or without emicizumab at 55 µg/mL which is the clinical steady state level. The reactions were initiated with low (1 pM) tissue factor (TF). rFVIIa was added at concentrations of 25-100 nM with 25 nM corresponding to the plasma levels achieved by a single clinical dose of 90 µg/mL. To study to the role of factor IX in the absence of factor VIII, it was necessary to create a double deficient plasma (factors VIII and IX deficient). This was done by taking antigen negative hemophilia B plasma and adding a neutralizing antibody to factor VIII (Haematologic Technologies, Essex Junction, VT, USA). Now varying concentrations of factor IX could be reconstituted into the plasma to give hemophilia A plasma. Results. As expected, in the double deficient plasma with low TF there was essentially no thrombin generation. Also as expected from previous studies, addition of rFVIIa to double deficient plasma gave a dose dependent increase in thrombin generation through activation of FX. Interestingly addition of plasma levels of FIX to the rFVIIa did not increase thrombin generation. Starting from double deficient plasma, as expected emicizumab did not increase thrombin generation since no factor IX was present. Also, in double deficient plasma with rFVIIa, emicizumab did not increase thrombin generation. But in double deficient plasma with FIX and rFVIIa, emicizumab significantly increased thrombin generation. The levels of thrombin generation increased in a dose dependent fashion with higher concentrations of rFVIIa giving higher levels of thrombin generation. Conclusion. Since addition of FIX to the double deficient plasma with rFVIIa did not increase thrombin generation, it suggests that rFVIIa activation of FX is the only source of the FXa needed for thrombin generation. So in the absence of factor VIII (or emicizumab) FIX activation does not contribute to thrombin generation. However, in the presence of emicizumab, while rFVIIa can still activate FX, FIXa formed by rFVIIa can complex with emicizumab to provide an additional source of FX activation. Thus rFVIIa activation of FIX explains the synergistic effect in thrombin generation observed when combining rFVIIa with emicizumab. The generation of FIXa at a site of injury is consistent with the safety profile observed in clinical use. Disclosures Monroe: Novo Nordisk:Research Funding.Ezban:Novo Nordisk:Current Employment.Hoffman:Novo Nordisk:Research Funding.

The Defective Down Regulation of Fibrinolysis in Haemophilia A Can Be Restored by Increasing the TAFI Plasma Concentration

2001 ◽  
Vol 86 (10) ◽  
pp. 1035-1039 ◽  
Author(s):  
Laurent Mosnier ◽  
Ton Lisman ◽  
Marijke van den Berg ◽  
Karel Nieuwenhuis ◽  
Joost Meijers ◽  
...  
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Thrombin Generation ◽  
Coagulation Factor ◽  
Clot Lysis ◽  
Haemophilia A ◽  
Intrinsic Pathway ◽  
Extrinsic Pathway ◽  
Down Regulation ◽  
Plasma Clot

SummaryTAFI (thrombin activatable fibrinolysis inhibitor) down regulates fibrinolysis after activation by relatively high concentrations of thrombin generated during coagulation via thrombin mediated factor XI activation and subsequent activation of the intrinsic pathway. It is this secondary burst of thrombin that is severely diminished in haemophilia A, a deficiency of coagulation factor VIII. We therefore investigated the role of TAFI in haemophilia A by measuring the clot lysis times of tissue factor induced fibrin formation and tPA mediated fibrinolysis. In haemophilia A plasma clot lysis times were normal at relatively high tissue factor concentrations but severely decreased at moderate to low tissue factor concentrations, indicating that the thrombin generation via the extrinsic pathway was insufficient to activate TAFI. Addition of factor VIII, TAFI or thrombomodulin restored the clot lysis times at low tissue factor concentrations. This confirms the hypothesis that the bleeding disorder in haemophilia A is not merely a defect in the initial clot formation but is in fact a triple defect: reduced thrombin formation via the extrinsic pathway at low tissue factor concentrations, a reduced secondary burst of thrombin generation via the intrinsic pathway and a defective down regulation of the fibrinolytic system by the intrinsic pathway.

scholarly journals An In Vitro Analysis of the Combination of Hemophilia A and Factor VLEIDEN

Blood ◽  
1997 ◽  
Vol 90 (8) ◽  
pp. 3067-3072 ◽  
Author(s):  
Cornelis van ‘t Veer ◽  
Neal J. Golden ◽  
Michael Kalafatis ◽  
Paolo Simioni ◽  
Rogier M. Bertina ◽  
...  
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Thrombin Generation ◽  
Hemophilia A ◽  
Factor Viia ◽  
Factor V ◽  
Severe Hemophilia ◽  
Factor Viii Activity ◽  
Thrombin Formation

Abstract The classification of factor VIII deficiency, generally used based on plasma levels of factor VIII, consists of severe (<1% normal factor VIII activity), moderate (1% to 4% factor VIII activity), or mild (5% to 25% factor VIII activity). A recent communication described four individuals bearing identical factor VIII mutations. This resulted in a severe bleeding disorder in two patients who carried a normal factor V gene, whereas the two patients who did not display severe hemophilia were heterozygous for the factor VLEIDEN mutation, which leads to the substitution of Arg506 → Gln mutation in the factor V molecule. Based on the factor VIII level measured using factor VIII–deficient plasma, these two patients were classified as mild/moderate hemophiliacs. We studied the condition of moderate to severe hemophilia A combined with the factor VLEIDEN mutation in vitro in a reconstituted model of the tissue factor pathway to thrombin. In the model, thrombin generation was initiated by relipidated tissue factor and factor VIIa in the presence of the coagulation factors X, IX, II, V, and VIII and the inhibitors tissue factor pathway inhibitor, antithrombin-III, and protein C. At 5 pmol/L initiating factor VIIa⋅tissue factor, a 10-fold higher peak level of thrombin formation (350 nmol/L), was observed in the system in the presence of plasma levels of factor VIII compared with reactions without factor VIII. Significant increase in thrombin formation was observed at factor VIII concentrations less than 42 pmol/L (∼6% of the normal factor VIII plasma concentration). In reactions without factor VIII, in which thrombin generation was downregulated by the addition of protein C and thrombomodulin, an increase of thrombin formation was observed with the factor VLEIDEN mutation. The level of increase in thrombin generation in the hemophilia A situation was found to be dependent on the factor VLEIDEN concentration. When the factor VLEIDEN concentration was varied from 50% to 150% of the normal plasma concentration, the increase in thrombin generation ranged from threefold to sevenfold. The data suggested that the analysis of the factor V genotype should be accompanied by a quantitative analysis of the plasma factor VLEIDEN level to understand the effect of factor VLEIDEN in hemophilia A patients. The presented data support the hypothesis that the factor VLEIDEN mutation can increase thrombin formation in severe hemophilia A.

Procedure-dependence and Tissue Factor-independence of Hypercoagulability during Orthopaedic Surgery

1999 ◽  
Vol 81 (06) ◽  
pp. 874-878 ◽  
Author(s):  
A. M. Gori ◽  
M. Falciani ◽  
A. P. Cellai ◽  
P. Aglietti ◽  
A. Baldini ◽  
...  
Keyword(s):  
Tissue Factor ◽  
Plasma Levels ◽  
Orthopaedic Surgery ◽  
Blood Clotting ◽  
Endothelial Activation ◽  
Extrinsic Pathway ◽  
Vein Thrombosis ◽  
Pathway Activation ◽  
Increased Risk ◽  
Von Willebrand

SummaryThe increased risk for deep vein thrombosis (DVT) after orthopaedic surgery has been well documented as well as hypercoagulable state during both total hip arthroplasty (THA) and total knee replacement (TKR). To investigate the influence of the surgical procedure [postero-lateral (PL) or lateral (L) approach for THA, use of tourniquet (TQ) or not use of TQ for TKR] on the hypercoagulability and the role of extrinsic pathway activation and endothelial stimulation during orthopaedic surgery we have examined 40 patients (20 patients undergoing primary THA – 10 with PL approach and 10 with L approach – and 20 patients undergoing TKR – 10 with TQ application and 10 without TQ). Thrombin-antithrombin complexes (TAT), tissue factor (TF), tissue factor pathway inhibitor (TFPI), thrombomodulin (TM) and von Willebrand factor antigen (vWF:Ag) were analyzed before and during the orthopaedic surgery. During THA, TAT plasma levels increased more markedly in patients assigned to the L than PL approach (p <0.05); during TKR an elevation of TAT of higher degree (p <0.05) was observed when TQ was not applicated. Blood clotting activation was significantly (p <0.001) more relevant during THA than TKR. No changes in TF and vWF:Ag plasma levels were observed in all patients undergoing THA and TKR. TFPI plasma levels significantly (p <0.05) decreased 1 h after the end of the THA in group PL and group L, whereas they remained unaffected in the two groups of patients undergoing TKR. Similarly TM plasma levels significantly decreased during THA, but not during TKR. In conclusion, these results show that: 1) the site of surgical procedures and the type of approach affect the degree of hypercoagulability, 2) the blood clotting activation takes place in the early phases of orthopaedic surgery, without signs of extrinsic pathway and endothelial activation.

Impact of long-term testosterone treatment on plasma levels of free TFPI and TF-induced thrombin generation ex vivo in elderly men with low testosterone levels

2009 ◽  
Vol 102 (11) ◽  
pp. 945-950 ◽  
Author(s):  
Ingvild Agledahl ◽  
Johan Svartberg ◽  
John-Bjarne Hansen ◽  
Ellen Brodin
Keyword(s):  
Tissue Factor ◽  
Plasma Levels ◽  
Thrombin Generation ◽  
Ex Vivo ◽  
Favorable Effect ◽  
Elderly Men ◽  
Testosterone Treatment ◽  
Testosterone Levels ◽  
Low Testosterone ◽  
One Year

SummaryMen have a higher incidence of cardiovascular disease (CVD) than women of similar age, and it has been suggested that testosterone may influence the development of CVD. Recently, we demonstrated that elderly men with low testosterone levels had lower plasma levels of free tissue factor pathway inhibitor (TFPI) Ag associated with shortened tissue factor (TF)-induced coagulation initiation in a population based case-control study. Our hypothesis was that one year of testosterone treatment to physiological levels in elderly men would increase the levels of free TFPI Ag in plasma and have a favorable effect on TF-induced coagulation. Twenty-six men with low testosterone levels (≤11.0 nM) were randomly assigned to treatment with intramuscular testosterone depot injections (testosterone undecanoate 1,000 mg) or placebo in a double-blinded study. Each participant received a total of five injections, at baseline, 6, 16, 28 and 40 weeks, and TF-induced thrombin generation ex vivo and plasma free TFPI Ag were measured after one year. At the end of the study total and free testosterone levels were significantly higher in the testosterone treated group (14.9 ± 4.5 nM vs. 8.1 ± 2.4 nM; p<0.001, and 363.3 ± 106.6 pM vs. 187.3 ± 63.2 pM; p<0.001, respectively). Testosterone treatment for one year did neither cause significant changes in TF-induced thrombin generation ex vivo nor changes in plasma levels of free TFPI Ag. In conclusion, normalising testosterone levels by testosterone treatment for 12 months in elderly men did not affect TF-induced coagulation or plasma TFPI levels. The potential antithrombotic role of testosterone therapy remains to be elucidated.

scholarly journals The Role of Factor XI in Thrombin Generation Induced by Low Concentrations of Tissue Factor

2001 ◽  
Vol 85 (06) ◽  
pp. 1060-1065 ◽  
Author(s):  
Irene Keularts ◽  
Ariella Zivelin ◽  
Uri Seligsohn ◽  
H. Coenraad Hemker ◽  
Suzette Béguin
Keyword(s):  
Tissue Factor ◽  
Thrombin Generation ◽  
Contact Activation ◽  
Factor Xi ◽  
Platelet Poor Plasma ◽  
Low Concentrations ◽  
Time Determination ◽  
Thrombin Formation

SummaryThrombin generation has been studied in the plasma of severely factor XI deficient patients under conditions in which contact activation did not play a role. In platelet-rich as well as platelet-poor plasma, thrombin generation was dependent upon the presence of factor XI at tissue factor concentrations of between 1 and 20 pg/ml i.e. ~ 0.01 to 0.20% of the concentration normally present in the thromboplastin time determination. The requirement for factor XI is low; significant thrombin generation was seen at 1% factor XI; at 10%, thrombin formation was nearly normalised. A suspension of normal platelets in severely factor XI deficient plasma did not increase thrombin generation. This implies that there is no significant factor XI activity carried by normal platelets, although the presence of factor XI and factor XI inhibitors in platelets cannot be ruled out.

Inhibition of thrombin generation by the zymogen factor VII: implications for the treatment of hemophilia A by factor VIIa

Blood ◽  
2000 ◽  
Vol 95 (4) ◽  
pp. 1330-1335 ◽  
Author(s):  
Cornelis van 't Veer ◽  
Neal J. Golden ◽  
Kenneth G. Mann
Keyword(s):  
Factor Viii ◽  
Tissue Factor ◽  
Thrombin Generation ◽  
Hemophilia A ◽  
Factor Viia ◽  
Plasma Concentrations ◽  
Factor Xa ◽  
Factor Vii ◽  
Lag Phase ◽  
Single Chain

Factor VII circulates as a single chain inactive zymogen (10 nmol/L) and a trace (∼10-100 pmol/L) circulates as the 2-chain form, factor VIIa. Factor VII and factor VIIa were studied in a coagulation model using plasma concentrations of purified coagulation factors with reactions initiated with relipidated tissue factor (TF). Factor VII (10 nmol/L) extended the lag phase of thrombin generation initiated by 100 pmol/L factor VIIa and low TF. With the coagulation inhibitors TFPI and AT-III present, factor VII both extended the lag phase of the reaction and depressed the rate of thrombin generation. The inhibition of factor Xa generation by factor VII is consistent with its competition with factor VIIa for TF. Thrombin generation with TF concentrations &gt;100 pmol/L was not inhibited by factor VII. At low tissue factor concentrations (&lt;25 pmol/L) thrombin generation becomes sensitive to the absence of factor VIII. In the absence of factor VIII, factor VII significantly inhibits TF-initiated thrombin generation by 100 pmol/L factor VIIa. In this hemophilia A model, approximately 2 nmol/L factor VIIa is needed to overcome the inhibition of physiologic (10 nmol/L) factor VII. At 10 nmol/L, factor VIIa provided a thrombin generation response in the hemophilia model (0% factor VIII, 10 nmol/L factor VII) equivalent to that observed with normal plasma, (100% factor VIII, 10 nmol/L factor VII, 100 pmol/L factor VIIa). These results suggest that the therapeutic efficacy of factor VIIa in the medical treatment of hemophiliacs with inhibitors is, in part, based on overcoming the factor VII inhibitory effect.

Factor VIII Efficacy and Tissue Factor Levels in Hemophilia A Patients Undergoing Total Knee Replacement.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 4029-4029
Author(s):  
Wolfgang Wegert ◽  
Manuela Krause ◽  
Inge Scharrer ◽  
Ulla Stumpf ◽  
Andreas Kurth ◽  
...  
Keyword(s):  
Total Knee Replacement ◽  
Plasma Levels ◽  
Thrombin Generation ◽  
Hemophilia A ◽  
Lag Time ◽  
Major Surgery ◽  
Plasma Samples ◽  
Time To Peak ◽  
Thrombin Generation Assay ◽  
Total Knee

Abstract The changes of tissue factor (TF) blood levels in patients undergoing major surgery has been reported presenting controversial data. Whether this TF is hemostatically active or if it interacts with other coagulation factors, e.g. FVIII, is still unclear, making thrombotic risk and complications assessment for even more difficult. We analyzed plasma samples from four male patients aged 27–55 with severe hemophilia A without inhibitory antibodies, undergoing total knee replacement, which all gave informed consent. Initial FVIII doses before intervention was 75–80 U/kg. Treatment following intervention was targeted at 100 % FVIII serum levels. None received heparin. No bleeding events occurred during the observation period. The samples were taken at these timepoints (TP): 1. before preoperative FVIII substitution, 2. at the time of first incision (intervention start), 3. at circulation arrest release + 90 s after prosthesis implantation, 4. final suture (intervention end), 5. 24 h and 6. 48 h after intervention to assay procedurally induced TF production. Coagulation analyses were carried out using a fluorometric thrombin generation assay (TGA) in platelet rich plasma (PRP), RoTEG (rotation thrombelastography) in whole blood and a TF ELISA for the plasma samples’ TF levels. Both clotting function tests were started using TF diluted 1:100.000 and calcium chloride 16,7 mM (final conc.). TGA parameters were ETP, PEAK (maximum thrombin generation velocity), TIME TO PEAK, LAG TIME. TGA parameters directly related to thrombin activity (ETP; PEAK) showed no change during the intervention, but a sharp decrease 24 h later with a partial recovery 48 h later. TGA time marks (TIME TO PEAK, LAG TIME) changed in an inverse way, except for the difference from LAG TIME and TIME TO PEAK, which shortened continously after circulation arrest removal. RoTEG was characterized using 4 parameters: clotting time (CT), clot formation time (CFT), maximum clot firmness (MCF) and clot formation rate (CFR). After preoperative FVIII substitution, CT decreased by 10 % and CFT by 50 % in 48 h. MCF stayed unchanged during the intervention and the following 24 h, but increased by 20 % at 48 h. CFR increased by 10 % during intervention, and by 20 % from 24 to 48 h. TF ELISA showed preoperative TF plasma levels from 11 to 271 pg/ml. After release of circulation arrest (TP 3) TF concentration increased sharply (4 times the initial value), which was not detectable in the samples taken at TPs 2 and 4. TF levels further increased at TPs 5 and 6 to 170 % and 317 % resp. Altogether, TF plasma levels elevated after major surgery seem to correspond to a potential risk factor for postoperative thrombosis, especially when elevation is induced after intervention. However, functional coagulation assays do not change uniformly, as the thrombin generation assay reflects no marked changes under intervention, but in the period after(24–48 h). Changes in the RoTEG whole blood clotting assay are not dramatic but indicate a thrombophilic shift in coagulation balance also pronouned at 24–48h, too. These results demonstrate that increased coagulability after orthopedic surgery detected using functional clotting assays correlates with increased TF levels, but further studies must be performed to prove this relation in healthy individuals.

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