Your search keyword '"Brummel-Ziedins, Kathleen E."' showing total 28 results

1. Hemodilution and Endothelial Cell Regulation of Whole Blood Coagulation.

Author

Orfeo T, Gissel M, Haynes LM, Pusateri A, Mann KG, and Brummel-Ziedins KE

Subjects

Adult, Blood Proteins analysis, Blotting, Western methods, Endothelial Cells metabolism, Enzyme-Linked Immunosorbent Assay methods, Healthy Volunteers, Hemodilution methods, Humans, Male, Blood Coagulation physiology, Endothelial Cells physiology, Hemodilution adverse effects

Abstract

Background: Beyond localized damage to the circulatory system and surrounding tissue, trauma stresses endothelial cells throughout the vasculature, potentially leading to hemorrhagic or thrombotic complications away from the injury site., Objective: Use a whole blood endothelial cell model to define the effects of crystalloid fluid therapy on protein C pathway regulation of tissue factor-initiated coagulation., Methods: Tissue factor-initiated coagulation was studied in the presence of EA.hy926 cells. Blood was diluted to 70% or 40% using normal saline or lactated ringers. Analyses of coagulation dynamics included clot times, thrombin formation (thrombin-antithrombin complex), FV activation/inactivation, fibrinogen consumption, FXIII activation, and platelet activation., Results: In all donors, the onset of thrombin generation was not altered in 70% blood using either diluent; with the blood component reduced to 40%, clot time was prolonged two-fold when normal saline was utilized but was unchanged with lactated ringers. The timing of the activations of FV, fibrinogen, and platelets paralleled the effects of dilution on clot times. Extensive inactivation of FVa was observed in undiluted blood and where lactated ringers was the diluent but not in trials with 40% blood/60% normal saline., Conclusion: Feedback inhibition of tissue factor-initiated coagulation by the protein C pathway is not compromised by hemodilution with crystalloids.

Published

2018

2. Probing the Dynamics of Clot-Bound Thrombin at Venous Shear Rates.

Author

Haynes LM, Orfeo T, Mann KG, Everse SJ, and Brummel-Ziedins KE

Subjects

Antithrombins chemistry, Antithrombins metabolism, Antithrombins pharmacology, Blood Coagulation drug effects, Dabigatran pharmacology, Fibrin chemistry, Fibrin metabolism, Fibrinogen chemistry, Fibrinogen metabolism, Fibrinolytic Agents pharmacology, Hemodynamics, Heparin pharmacology, Humans, Kinetics, Microscopy, Confocal, Microscopy, Electron, Scanning, Models, Cardiovascular, Models, Molecular, Thrombin chemistry, Venous Thrombosis drug therapy, Venous Thrombosis metabolism, Blood Coagulation physiology, Thrombin metabolism, Veins metabolism

Abstract

In closed system models of fibrin formation, exosite-mediated thrombin binding to fibrin contributes to clot stability and is resistant to inhibition by antithrombin/heparin while still susceptible to small, active-site inhibitors. Each molecule of fibrin can bind ∼1.6 thrombin molecules at low-affinity binding sites (K d  = 2.8 μM) and ∼0.3 molecules of thrombin at high-affinity binding sites (K d  = 0.15 μM). The goal of this study is to assess the stability of fibrin-bound thrombin under venous flow conditions and to determine both its accessibility and susceptibility to inhibition. A parallel-plate flow chamber (7 × 50 × 0.25 mm) for studying the stability of thrombin (0-1400 nM) adhered to a fibrin matrix (0.1-0.4 mg/mL fibrinogen, 10 nM thrombin) under a variety of venous flow conditions was developed using the thrombin-specific, fluorogenic substrate SN-59 (100 μM). The flow within this system is laminar (R e  < 1) and reaction rates are driven by enzyme kinetics (P e  = 100, D a  = 7000). A subpopulation of active thrombin remains stably adhered to a fibrin matrix over a range of venous shear rates (46-184 s -1 ) for upwards of 30 min, and this population is saturable at loads >500 nM and sensitive to the initial fibrinogen concentration. These observations were also supported by a mathematical model of thrombin adhesion to fibrin, which demonstrates that thrombin initially binds to the low-affinity thrombin binding sites before preferentially equilibrating to higher affinity sites. Antithrombin (2.6 μM) plus heparin (4 U/mL) inhibits 72% of the active clot-bound thrombin after ∼10 min at 92 s -1 , while no inhibition is observed in the absence of heparin. Dabigatran (20 and 200 nM) inhibits (50 and 93%) clot-bound thrombin reversibly (87 and 66% recovery). This model illustrates that clot-bound thrombin stability is the result of a constant rearrangement of thrombin molecules within a dense matrix of binding sites., (Copyright © 2017 Biophysical Society. Published by Elsevier Inc. All rights reserved.)

Published

2017

3. In-depth analysis of clotting dynamics in burn patients.

Author

Tejiram S, Brummel-Ziedins KE, Orfeo T, Mete M, Desale S, Hamilton BN, Moffatt LT, Mann KG, Tracy RP, and Shupp JW

Subjects

Acute Disease, Adult, Aged, Biomarkers blood, Blood Coagulation Disorders blood, Blood Coagulation Disorders diagnosis, Blood Coagulation Tests, Burns blood, Burns mortality, Computer Systems, Cytokines blood, Female, Humans, Male, Middle Aged, Prognosis, Risk Factors, Blood Coagulation, Blood Coagulation Disorders etiology, Burns complications

Abstract

Background: Studies associating coagulopathic changes with burn injury have relied on limited tests such as partial thromboplastin time (PTT) and international normalized ratio (INR). Understanding the clotting dynamics and associated risk factors after burn injury could influence management. This work aimed to identify real-time changes in coagulation after burn injury not indicated by PTT or INR alone., Materials and Methods: Nine burn-injured patients at a regional burn center were enrolled for blood collection at admission and set intervals over 96 h. Patient demographics, management, and laboratory data (PTT and INR) were collected. Plasma assays determined factors II, V, VII, VIII, IX, X, XI, antithrombin, and protein C functional activity as well as PAP, D-Dimer, fibrin monomer, TFPI, IL-1b, IL-6, IL-10, IL-12p.70, and TNF-α concentrations., Results: Overall, five patients died. These patients had higher mortality scores and were more acidotic. All patients had normal coagulation studies (INR < 1.5, PTT < 45 s) within 24 h of admission, and only two were abnormal after. Increased factor VIII and IX activity were identified in seven patients at admission. Decreased antithrombin and protein C activity were seen in all patients. Patients had increased PAP, D-Dimer, and fibrin monomer concentrations throughout their hospital course. At admission, increased fold changes were seen in IL-6 (2.5-117) and IL-10 (2.4-32), whereas IL-1b and TNF-α levels were depressed in all patients., Conclusions: Extensive changes not identified by PTT or INR were seen after burn injury that may explain perturbed coagulation in these patients. This approach further characterizes the impact thermal injury has on coagulation., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

4. Developing individualized coagulation profiling of disease risk: thrombin generation dynamic models of the pro and anticoagulant balance.

Author

Brummel-Ziedins KE

Subjects

Anticoagulants therapeutic use, Blood Coagulation Tests, Computer Simulation, Humans, Models, Biological, Anticoagulants pharmacology, Blood Coagulation drug effects, Blood Coagulation Factors metabolism, Thrombin metabolism

Abstract

Global assays and computational models have advanced research into the realm of individualized profiling of hemostatic states. This brief review will describe one computational approach which utilizes an integrated method that evaluates the dynamics of thrombin generation by defining interactions of the pro and anticoagulant proteins, enzymes and cofactors based upon individualized concentrations of select factors. This plasma composition based computational modeling can provide a mechanism based bridge between empirical global assays of coagulation and individualized risk prediction., (Copyright © 2014. Published by Elsevier Ltd.)

Published

2014

5. Thrombin generation and fibrin clot formation under hypothermic conditions: an in vitro evaluation of tissue factor initiated whole blood coagulation.

Author

Whelihan MF, Kiankhooy A, and Brummel-Ziedins KE

Subjects

Adult, Blood Coagulation Tests, Factor XIII metabolism, Female, Fibrinogen metabolism, Humans, Hypothermia blood, In Vitro Techniques, Male, Middle Aged, Temperature, Thrombelastography, Blood Coagulation physiology, Fibrin biosynthesis, Hypothermia metabolism, Thrombin biosynthesis

Abstract

Background: Despite trauma-induced hypothermic coagulopathy being familiar in the clinical setting, empirical experimentation concerning this phenomenon is lacking. In this study, we investigated the effects of hypothermia on thrombin generation, clot formation, and global hemostatic functions in an in vitro environment using a whole blood model and thromboelastography, which can recapitulate hypothermia., Methods: Blood was collected from healthy individuals through venipuncture and treated with corn trypsin inhibitor, to block the contact pathway. Coagulation was initiated with 5pM tissue factor at temperatures 37°C, 32°C, and 27°C. Reactions were quenched over time, with soluble and insoluble components analyzed for thrombin generation, fibrinogen consumption, factor (f)XIII activation, and fibrin deposition. Global coagulation potential was evaluated through thromboelastography., Results: Data showed that thrombin generation in samples at 37°C and 32°C had comparable rates, whereas 27°C had a much lower rate (39.2 ± 1.1 and 43 ± 2.4 nM/min vs 28.6 ± 4.4 nM/min, respectively). Fibrinogen consumption and fXIII activation were highest at 37°C, followed by 32°C and 27°C. Fibrin formation as seen through clot weights also followed this trend. Thromboelastography data showed that clot formation was fastest in samples at 37°C and lowest at 27°C. Maximum clot strength was similar for each temperature. Also, percent lysis of clots was highest at 37°C followed by 32°C and then 27°C., Conclusions: Induced hypothermic conditions directly affect the rate of thrombin generation and clot formation, whereas global clot stability remains intact., (© 2013.)

Published

2014

6. Modeling thrombin generation: plasma composition based approach.

Author

Brummel-Ziedins KE, Everse SJ, Mann KG, and Orfeo T

Subjects

Animals, Hemostasis physiology, Humans, Blood Coagulation physiology, Models, Molecular, Plasma metabolism, Thrombin metabolism

Abstract

Thrombin has multiple functions in blood coagulation and its regulation is central to maintaining the balance between hemorrhage and thrombosis. Empirical and computational methods that capture thrombin generation can provide advancements to current clinical screening of the hemostatic balance at the level of the individual. In any individual, procoagulant and anticoagulant factor levels together act to generate a unique coagulation phenotype (net balance) that is reflective of the sum of its developmental, environmental, genetic, nutritional and pharmacological influences. Defining such thrombin phenotypes may provide a means to track disease progression pre-crisis. In this review we briefly describe thrombin function, methods for assessing thrombin dynamics as a phenotypic marker, computationally derived thrombin phenotypes versus determined clinical phenotypes, the boundaries of normal range thrombin generation using plasma composition based approaches and the feasibility of these approaches for predicting risk.

Published

2014

7. Depletion of systemic concentrations of coagulation factors in blood from patients with atherosclerotic vascular disease.

Author

Brummel-Ziedins KE, Lam PH, Gissel M, Gauthier E, and Schneider DJ

Subjects

Adult, Aged, Aged, 80 and over, Biomarkers blood, Blood Coagulation Tests, Cardiac Catheterization, Computer Simulation, Coronary Angiography, Coronary Artery Disease complications, Coronary Artery Disease diagnostic imaging, Coronary Stenosis complications, Coronary Stenosis diagnostic imaging, Down-Regulation, Factor Xa metabolism, Female, Humans, Kinetics, Male, Middle Aged, Models, Cardiovascular, Pilot Projects, Prognosis, Risk Factors, Severity of Illness Index, Thrombin metabolism, Blood Coagulation, Blood Coagulation Factors analysis, Coronary Artery Disease blood, Coronary Stenosis blood

Abstract

Objective: Thrombosis complicating the rupture of an atherosclerotic plaque can lead to arterial occlusion. Tissue factor, a membrane-bound glycoprotein, is expressed to a greater extent in atherosclerotic plaques and may be a key mediator of microthrombosis and macrothrombosis. This pilot study was designed to determine whether the angiographic presence or the extent of atherosclerosis was correlated with the activity of coagulation factors in blood. A novel computational model was used to predict whether differences in the activity of coagulation factors would alter the generation of thrombin., Methods: Blood was obtained for the determination of coagulation factor activity from patients undergoing cardiac catheterization (n=50) who were grouped by the extent of their coronary artery disease (CAD). Generation of thrombin and factor (f) Xa were determined computationally., Results: The activities of fII and fX were significantly lower in blood from patients with more severe CAD. Despite this, the time to clot (presumably reflecting a hypercoagulable state) was shorter in all patient groups than projected in healthy participants. Tissue factor pathway inhibitor concentrations were strongly associated with the generation of fXa and thrombin, and it is the best predictor of the time to clot., Conclusion: The balance between tissue factor and tissue factor pathway inhibitor appears to be a primary determinant of a hypercoagulable state that can accompany CAD. Lower concentrations of fX and fII in blood from patients with more severe CAD, who exhibit a shorter time to clot in vitro, are consistent with the clinical observation that patients at greater risk for thrombosis can also be at greater risk for bleeding.

Published

2013

8. From principle to practice: bridging the gap in patient profiling.

Author

Foley JH, Orfeo T, Undas A, McLean KC, Bernstein IM, Rivard GE, Mann KG, Everse SJ, and Brummel-Ziedins KE

Subjects

Adolescent, Adult, Aged, Anticoagulants therapeutic use, Atrial Fibrillation drug therapy, Atrial Fibrillation metabolism, Computer Simulation, Factor VIII administration & dosage, Factor VIII therapeutic use, Female, Hemophilia A metabolism, Hemophilia A prevention & control, Humans, Kinetics, Male, Middle Aged, Pregnancy, Premedication, Protein C metabolism, Warfarin therapeutic use, Young Adult, Blood Coagulation drug effects, Models, Biological, Thrombin metabolism

Abstract

The standard clinical coagulation assays, activated partial thromboplastin time (aPTT) and prothrombin time (PT) cannot predict thrombotic or bleeding risk. Since thrombin generation is central to haemorrhage control and when unregulated, is the likely cause of thrombosis, thrombin generation assays (TGA) have gained acceptance as "global assays" of haemostasis. These assays generate an enormous amount of data including four key thrombin parameters (lag time, maximum rate, peak and total thrombin) that may change to varying degrees over time in longitudinal studies. Currently, each thrombin parameter is averaged and presented individually in a table, bar graph or box plot; no method exists to visualize comprehensive thrombin generation data over time. To address this need, we have created a method that visualizes all four thrombin parameters simultaneously and can be animated to evaluate how thrombin generation changes over time. This method uses all thrombin parameters to intrinsically rank individuals based on their haemostatic status. The thrombin generation parameters can be derived empirically using TGA or simulated using computational models (CM). To establish the utility and diverse applicability of our method we demonstrate how warfarin therapy (CM), factor VIII prophylaxis for haemophilia A (CM), and pregnancy (TGA) affects thrombin generation over time. The method is especially suited to evaluate an individual's thrombotic and bleeding risk during "normal" processes (e.g pregnancy or aging) or during therapeutic challenges to the haemostatic system. Ultimately, our method is designed to visualize individualized patient profiles which are becoming evermore important as personalized medicine strategies become routine clinical practice.

Published

2013

9. Factor Xa generation by computational modeling: an additional discriminator to thrombin generation evaluation.

Author

Brummel-Ziedins KE, Orfeo T, Gissel M, Mann KG, and Rosendaal FR

Subjects

Aged, Body Mass Index, Case-Control Studies, Computer Simulation, Female, Humans, Male, Middle Aged, Models, Biological, Risk Factors, Antithrombins metabolism, Blood Coagulation, Factor Xa metabolism, Thrombin metabolism

Abstract

Factor (f)Xa is a critical enzyme in blood coagulation that is responsible for the initiation and propagation of thrombin generation. Previously we have shown that analysis of computationally generated thrombin profiles is a tool to investigate hemostasis in various populations. In this study, we evaluate the potential of computationally derived time courses of fXa generation as another approach for investigating thrombotic risk. Utilizing the case (n = 473) and control (n = 426) population from the Leiden Thrombophilia Study and each individual's plasma protein factor composition for fII, fV, fVII, fVIII, fIX, fX, antithrombin and tissue factor pathway inhibitor, tissue factor-initiated total active fXa generation was assessed using a mathematical model. FXa generation was evaluated by the area under the curve (AUC), the maximum rate (MaxR) and level (MaxL) and the time to reach these, TMaxR and TMaxL, respectively. FXa generation was analyzed in the entire populations and in defined subgroups (by sex, age, body mass index, oral contraceptive use). The maximum rates and levels of fXa generation occur over a 10- to 12- fold range in both cases and controls. This variation is larger than that observed with thrombin (3-6 fold) in the same population. The greatest risk association was obtained using either MaxR or MaxL of fXa generation; with an ∼2.2 fold increased risk for individuals exceeding the 90(th) percentile. This risk was similar to that of thrombin generation(MaxR OR 2.6). Grouping defined by oral contraceptive (OC) use in the control population showed the biggest differences in fXa generation; a >60% increase in the MaxR upon OC use. FXa generation can distinguish between a subset of individuals characterized by overlapping thrombin generation profiles. Analysis of fXa generation is a phenotypic characteristic which may prove to be a more sensitive discriminator than thrombin generation among all individuals.

Published

2012

10. Measurement of procoagulant platelet subpopulations in whole blood: development of an assay for population-based studies.

Author

Bouchard BA, Paradis AK, and Brummel-Ziedins KE

Subjects

Adult, Analysis of Variance, Factor V metabolism, Factor Xa metabolism, Feasibility Studies, Female, Flow Cytometry, Humans, Male, Pilot Projects, Predictive Value of Tests, Reproducibility of Results, Time Factors, Young Adult, Blood Coagulation, Blood Coagulation Tests, Blood Platelets metabolism, Platelet Activation, Platelet Function Tests, Thrombin metabolism

Published

2011

11. Anticoagulants and the propagation phase of thrombin generation.

Author

Orfeo T, Gissel M, Butenas S, Undas A, Brummel-Ziedins KE, and Mann KG

Subjects

Adult, Aged, Aged, 80 and over, Blood Coagulation Factors metabolism, Computer Simulation, Female, Humans, International Normalized Ratio, Middle Aged, Models, Biological, Outcome Assessment, Health Care methods, Prothrombin Time, Anticoagulants therapeutic use, Blood Coagulation drug effects, Thrombin metabolism, Warfarin therapeutic use

Abstract

The view that clot time-based assays do not provide a sufficient assessment of an individual's hemostatic competence, especially in the context of anticoagulant therapy, has provoked a search for new metrics, with significant focus directed at techniques that define the propagation phase of thrombin generation. Here we use our deterministic mathematical model of tissue-factor initiated thrombin generation in combination with reconstructions using purified protein components to characterize how the interplay between anticoagulant mechanisms and variable composition of the coagulation proteome result in differential regulation of the propagation phase of thrombin generation. Thrombin parameters were extracted from computationally derived thrombin generation profiles generated using coagulation proteome factor data from warfarin-treated individuals (N = 54) and matching groups of control individuals (N = 37). A computational clot time prolongation value (cINR) was devised that correlated with their actual International Normalized Ratio (INR) values, with differences between individual INR and cINR values shown to derive from the insensitivity of the INR to tissue factor pathway inhibitor (TFPI). The analysis suggests that normal range variation in TFPI levels could be an important contributor to the failure of the INR to adequately reflect the anticoagulated state in some individuals. Warfarin-induced changes in thrombin propagation phase parameters were then compared to those induced by unfractionated heparin, fondaparinux, rivaroxaban, and a reversible thrombin inhibitor. Anticoagulants were assessed at concentrations yielding equivalent cINR values, with each anticoagulant evaluated using 32 unique coagulation proteome compositions. The analyses showed that no anticoagulant recapitulated all features of warfarin propagation phase dynamics; differences in propagation phase effects suggest that anticoagulants that selectively target fXa or thrombin may provoke fewer bleeding episodes. More generally, the study shows that computational modeling of the response of core elements of the coagulation proteome to a physiologically relevant tissue factor stimulus may improve the monitoring of a broad range of anticoagulants.

Published

2011

12. Cellular regulation of blood coagulation: a model for venous stasis.

Author

Campbell JE, Brummel-Ziedins KE, Butenas S, and Mann KG

Subjects

Adult, Blood Coagulation drug effects, Cells, Cultured, Cytokines pharmacology, Endothelium, Vascular cytology, Endothelium, Vascular drug effects, Endothelium, Vascular metabolism, Factor Va metabolism, Humans, Lipopolysaccharides pharmacology, Male, Monocytes drug effects, Protein C metabolism, Umbilical Veins cytology, Umbilical Veins drug effects, Umbilical Veins metabolism, Blood Coagulation physiology, Models, Biological, Monocytes metabolism, Thromboplastin pharmacology, Venous Thrombosis physiopathology

Abstract

We have adapted the corn-trypsin inhibitor whole-blood model to include EA.hy926 as an endothelium surrogate to evaluate the vascular modulation of blood coagulation initiated by relipidated recombinant tissue factor (rTf) and a cellular Tf surrogate, lipopolysaccharide (LPS)-stimulated THP1 cells (LPS-THP-1). Compared with bare tubes, EA.hy926 with rTf decreased the rate of thrombin formation, ITS accumulation, and the production of fibrinopeptide A. These phenomena occurred with increased rates of factor Va (fVa) inactivation by cleavages at R(506) and R(306). Thus, EA.hy926 provides thrombin-dependent protein C activation and APC fVa inactivation. Comparisons of rTf with LPS-THP-1 showed that the latter gave reduced rates for TAT formation but equivalent fibrinopeptide A, and fV activation/inactivation. In the presence of EA.hy926, the reverse was obtained; with the surrogate endothelium and LPS-THP-1 the rates of TAT generation, fibrinopeptide release, and fV activation were almost doubled, whereas cleavage at R(306) was equivalent. These observations suggest cooperativity between the 2 cell surrogates. These data suggest that the use of these 2 cell lines provides a reproducible quasi-endothelial quasi-inflammatory cytokine-stimulated monocyte system that provides a method to evaluate the variations in blood phenotype against the background of stable inflammatory cell activator and a stable vascular endothelial surrogate.

Published

2010

13. Thrombin generation in rheumatoid arthritis: dependence on plasma factor composition.

Author

Undas A, Gissel M, Kwasny-Krochin B, Gluszko P, Mann KG, and Brummel-Ziedins KE

Subjects

Adult, Aged, Antithrombins metabolism, Arthritis, Rheumatoid complications, Arthritis, Rheumatoid diagnosis, Biomarkers blood, Blood Coagulation Tests, Computer Simulation, Female, Humans, Kinetics, Lipoproteins blood, Male, Middle Aged, Models, Biological, Risk Adjustment, Severity of Illness Index, Thromboembolism blood, Young Adult, Arthritis, Rheumatoid blood, Blood Coagulation, Blood Coagulation Factors metabolism, Thrombin metabolism, Thromboembolism etiology

Abstract

Growing evidence indicates that rheumatoid arthritis (RA) is associated with an increased risk for thromboembolic cardiovascular events. We investigated thrombin generation profiles in RA patients and their dependence on plasma factor/inhibitor composition. Plasma factor (F) compositions (II, V, VII, VIII, IX, X), antithrombin and free tissue factor pathway inhibitor (TFPI) from 46 consecutive RA patients with no cardiovascular events (39 female, 7 male, aged 57 [range, 23-75] years; DAS28 [Disease Activity Score] 5.2 +/- 1.1) were compared with those obtained in age- and sex-matched apparently healthy controls. Using each individual's plasma coagulation protein composition, tissue factor-initiated thrombin generation was assessed both computationally and empirically. RA patients had higher fibrinogen (4.18 [IQR 1.09] vs. 2.56 [0.41] g/l, p<0.0001), FVIII (226 +/- 40 vs. 113 +/- 15%, p<0.001), PC (107 [16] vs. 100 [14]%, p<0.001), and free TFPI levels (22.3 [2.2] vs. 14.7 [2.1] ng/ml, p<0.001). DAS28, but not age, RA duration, or C-reactive protein, was associated with FV, FVIII, FIX, FX, antithrombin, and free TFPI (r from 0.27 to 0.48, p<0.05). Intergroup comparison of computational thrombin generation profiles showed that in RA patients, maximum thrombin levels (p=0.01) and the rate of thrombin formation (p<0.0001) were higher, whereas the initiation phase of thrombin generation (p<0.0001) and the time to maximum thrombin levels (p<0.0001) were longer. Empirical reconstructions of the populations reproduced the thrombin generation profiles generated by the computational model. Simulations of thrombin formation suggest that blood plasma composition, i.e. a marked increase in FVIII, somewhat counterbalanced by free TFPI, contributes to the prothrombotic phenotype in RA patients.

Published

2010

14. The impact of uncertainty in a blood coagulation model.

Author

Danforth CM, Orfeo T, Mann KG, Brummel-Ziedins KE, and Everse SJ

Subjects

Algorithms, Analysis of Variance, Animals, Blood Coagulation Factors metabolism, Computer Simulation, Factor VIIa metabolism, Humans, Kinetics, Thrombin metabolism, Thromboplastin metabolism, Blood Coagulation physiology, Models, Biological, Uncertainty

Abstract

Deterministic mathematical models of biochemical processes operate as if the empirically derived rate constants governing the dynamics are known with certainty. Our objective in this study was to explore the sensitivity of a deterministic model of blood coagulation to variations in the values of its 44 rate constants. This was accomplished for each rate constant at a given time by defining a normalized ensemble standard deviation (w(k(i))(f)(t)) that accounted for the sensitivity of the predicted concentration of each protein species to variation in that rate constant (from 10 to 1000% of the accepted value). A mean coefficient of variation derived from (w(k(i))(f)(t)) values for all protein species was defined to quantify the overall variation introduced into the model's predictive capacity at that time by the assumed uncertainty in that rate constant. A time-average value of the coefficient of variation over the 20-min simulation for each rate constant was then used to rank rate constants. The model's predictive capacity is particularly sensitive (50% of the aggregate variation) to uncertainty in five rate constants involved in the regulation of the formation and function of the factor VIIa-tissue factor complex. Therefore, our analysis has identified specific rate constants to which the predictive capability of this model is most sensitive and thus where improvements in measurement accuracy will yield the greatest increase in predictive capability.

Published

2009

15. Systemic blood coagulation activation in acute coronary syndromes.

Author

Undas A, Szułdrzyński K, Brummel-Ziedins KE, Tracz W, Zmudka K, and Mann KG

Subjects

Acute Coronary Syndrome metabolism, Aged, Cohort Studies, Coronary Artery Disease blood, Coronary Artery Disease metabolism, Factor V physiology, Female, Fibrinogen metabolism, Humans, Male, Middle Aged, Platelet Activation physiology, Prothrombin metabolism, Thrombin metabolism, Time Factors, Acute Coronary Syndrome blood, Blood Coagulation physiology

Abstract

We evaluated systemic alterations to the blood coagulation system that occur during a coronary thrombotic event. Peripheral blood coagulation in patients with acute coronary thrombosis was compared with that in people with stable coronary artery disease (CAD). Blood coagulation and platelet activation at the microvascular injury site were assessed using immunochemistry in 28 non-anticoagulated patients with acute myocardial infarction (AMI) versus 28 stable CAD patients matched for age, sex, risk factors, and medications. AMI was associated with increased maximum rates of thrombin-antithrombin complex generation (by 93.8%; P< .001), thrombin B-chain formation (by 57.1%; P< .001), prothrombin consumption (by 27.9%; P= .012), fibrinogen consumption (by 27.0%; P= .02), factor (f) Va light chain generation (by 44.2%; P= .003), and accelerated fVa inactivation (by 76.1%; P< .001), and with enhanced release of platelet-derived soluble CD40 ligand (by 44.4%; P< .001). FVa heavy chain availability was similar in both groups because of enhanced formation and activated protein C (APC)-mediated destruction. The velocity of coagulant reactions in AMI patients showed positive correlations with interleukin-6. Heparin treatment led to dampening of coagulant reactions with profiles similar to those for stable CAD. AMI-induced systemic activation of blood coagulation markedly modifies the pattern of coagulant reactions at the site of injury in peripheral vessels compared with that in stable CAD patients.

Published

2009

16. The nature of the stable blood clot procoagulant activities.

Author

Orfeo T, Brummel-Ziedins KE, Gissel M, Butenas S, and Mann KG

Subjects

Adult, Factor V metabolism, Factor Xa metabolism, Hemostasis, Humans, Male, Proteome metabolism, Blood Coagulation, Factor X metabolism, Hemophilia A metabolism, Hemophilia B metabolism, Hemorrhage metabolism, Thromboplastin metabolism

Abstract

The function of tissue factor (Tf)-initiated coagulation is hemorrhage control through the formation and maintenance of an impermeable platelet-fibrin barrier. The catalytic processes involved in the clot maintenance function are not well defined, although the rebleeding problems characteristic of individuals with hemophilias A and B suggest a link between specific defects in the Tf-initiated process and defects in the maintenance function. We have previously demonstrated, using a methodology of "flow replacement" (or resupply) of ongoing Tf-initiated reactions with fresh reactants, that procoagulant complexes are produced during Tf-initiated coagulation, which are capable of reinitiating coagulation without input from extrinsic factor Xase activity (Orfeo, T., Butenas, S., Brummel-Ziedins, K. E., and Mann, K. G. (2005) J. Biol. Chem. 280, 42887-42896). Here we used Tf-initiated reactions in normal and hemophilia blood or in their corresponding proteome mixtures as sources of procoagulant end products and then varied the resupplying material to determine the identity of the catalysts that drive the new cycle of thrombin formation. The central findings are as follows: 1) the prothrombinase complex (fVa-fXa-Ca(2+)-membrane) accumulated during the episode of Tf-initiated coagulation is the primary catalyst responsible for the observed pattern of prothrombin activation after resupply; 2) impairments in intrinsic factor Xase function, i.e. hemophilias A and B, result in an impaired capacity to mount a resupply response; and 3) in normal hemostasis the intrinsic factor Xase function contributes to the durability of the resupply response.

Published

2008

17. Tissue factor in thrombosis and hemorrhage.

Author

Butenas S, Orfeo T, Brummel-Ziedins KE, and Mann KG

Subjects

Humans, Blood Coagulation physiology, Hemorrhage blood, Thromboplastin physiology, Thrombosis blood

Abstract

The research aims of our laboratory are to provide a realistic description of biologic processes involved in protection from hemorrhage and the evolution of thrombosis. To evaluate these processes, we use 4 models of coagulation ranging from 1) studies of blood exiting from microvascular wounds in humans through 2) minimally altered whole blood induced to clot by tissue factor (TF) to 3) reconstitution of the blood coagulation proteome with purified components and to 4) mathematical descriptions of the chemical processes and dynamics that occur. The integration of these 4 models permits comprehensive analyses of the blood coagulation system and predictions of its behavior under normal and pathologic conditions. Data accumulated thus far have led to advances in our understanding of 1) the processes occurring during the initiation and propagation phases of thrombin generation, 2) the roles for individual proteins involved in blood coagulation and its regulation, 3) defects in thrombin generation and clot formation in hemophilia, 4) actions and limitations of pharmacologic agents used to control hemorrhage, thrombosis, and chronic cardiovascular disease, and 5) the relationship between genotypic and phenotypic features of an individual's plasma proteome and his/her immediate and long-term thrombotic risk.

Published

2007

18. Influence of bivalirudin on tissue factor-triggered coagulation.

Author

Butenas S, Orfeo T, Brummel-Ziedins KE, and Mann KG

Subjects

Angioplasty, Balloon, Anticoagulants therapeutic use, Dose-Response Relationship, Drug, Humans, Peptide Fragments therapeutic use, Platelet Activation drug effects, Recombinant Proteins pharmacology, Recombinant Proteins therapeutic use, Anticoagulants pharmacology, Blood Coagulation drug effects, Hirudins pharmacology, Models, Biological, Peptide Fragments pharmacology, Thrombin metabolism, Thromboplastin metabolism

Abstract

Bivalirudin, a synthetic analog of the carboxy-terminus of hirudin, is a reversible thrombin inhibitor used during coronary balloon angioplasty. The objective of this study was to evaluate the influence of bivalirudin on thrombin generation. Three in-vitro models (numerical simulations, synthetic coagulation proteome and whole blood) of contact pathway-independent blood coagulation triggered with tissue factor were used in this study. Increasing concentrations of bivalirudin prolong the initiation phase of thrombin generation in a concentration-dependent manner. At subpharmacologic bivalirudin concentrations (0.5-2 micromol/l), total thrombin generation was significantly increased. At a pharmacologic concentration (5 micromol/l), bivalirudin suppressed thrombin generation in the synthetic coagulation proteome; in numerical simulations and contact pathway-inhibited whole blood, no thrombin generation was detected over 1200-2000 s and platelet activation was inhibited by 80%. The addition of a pharmacologic concentration (9 micromol/l) of a naturally occurring protease inhibitor aprotinin in the presence of at least 0.5 micromol/l bivalirudin provided limited enhancement of the bivalirudin inhibitory effect. In conclusion, bivalirudin at pharmacologic concentrations is an efficient inhibitor of thrombin generation, platelet activation and clot formation, which acts not as a modulator but as an 'on-off' switch of blood coagulation.

Published

2007

19. The tissue factor requirement in blood coagulation.

Author

Orfeo T, Butenas S, Brummel-Ziedins KE, and Mann KG

Subjects

Blood Coagulation Factors chemistry, Coagulants metabolism, Computer Simulation, Factor VIIa chemistry, Fibrinogen metabolism, Humans, Models, Biological, Models, Molecular, Models, Theoretical, Platelet Activation, Prothrombin metabolism, Software, Thrombin antagonists & inhibitors, Thrombin chemistry, Thrombin metabolism, Time Factors, Blood Coagulation, Thromboplastin metabolism

Abstract

Formation of thrombin is triggered when membrane-localized tissue factor (TF) is exposed to blood. In closed models of this process, thrombin formation displays an initiation phase (low rates of thrombin production cause platelet activation and fibrinogen clotting), a propagation phase (>95% of thrombin production occurs), and a termination phase (prothrombin activation ceases and free thrombin is inactivated). A current controversy centers on whether the TF stimulus requires supplementation from a circulating pool of blood TF to sustain an adequate procoagulant response. We have evaluated the requirement for TF during the progress of the blood coagulation reaction and have extended these analyses to assess the requirement for TF during resupply ("flow replacement"). Elimination of TF activity at various times during the initiation phase indicated: a period of absolute dependence (<10 s); a transitional period in which the dependence on TF is partial and decreases as the reaction proceeds (10-240 s); and a period in which the progress of the reaction is TF independent (>240 s). Resupply of reactions late during the termination phase with fresh reactants, but no TF, yielded immediate bursts of thrombin formation similar in magnitude to the original propagation phases. Our data show that independence from the initial TF stimulus is achieved by the onset of the propagation phase and that the ensemble of coagulation products and intermediates that yield this TF independence maintain their prothrombin activating potential for considerable time. These observations support the hypothesis that the transient, localized expression of TF is sufficient to sustain a TF-independent procoagulant response as long as flow persists.

Published

2005

20. Simvastatin given for 3 days can inhibit thrombin generation and activation of factor V and enhance factor Va inactivation in hypercholesterolemic patients.

Author

Undas A, Celinska-Löwenhoff M, Brummel-Ziedins KE, Brozek J, Szczeklik A, and Mann KG

Subjects

Factor V metabolism, Factor Va metabolism, Humans, Hypercholesterolemia blood, Male, Middle Aged, Thrombin metabolism, Blood Coagulation drug effects, Hydroxymethylglutaryl-CoA Reductase Inhibitors administration & dosage, Hypercholesterolemia drug therapy, Simvastatin administration & dosage

Published

2005

21. Tissue factor activity in whole blood.

Author

Butenas S, Bouchard BA, Brummel-Ziedins KE, Parhami-Seren B, and Mann KG

Subjects

Adult, Antibodies, Monoclonal, Blood, Blood Chemical Analysis methods, Blood Platelets metabolism, Female, Flow Cytometry, Humans, Male, Middle Aged, Monocytes metabolism, Plasma, Thromboplastin immunology, Blood Coagulation physiology, Thromboplastin metabolism

Abstract

Tissue factor (TF) is an integral membrane protein essential for hemostasis. During the past several years, a number of studies have suggested that physiologically active TF circulates in blood at concentrations greater than 30 pM either as a component of blood cells and microparticles or as a soluble plasma protein. In our studies using contact pathway-inhibited blood or plasma containing activated platelets, typically no clot is observed for 20 minutes in the absence of exogenous TF. An inhibitory anti-TF antibody also has no effect on the clotting time in the absence of exogenous TF. The addition of TF to whole blood at a concentration as low as 16 to 20 fM results in pronounced acceleration of clot formation. The presence of potential platelet TF activity was evaluated using ionophore-treated platelets and employing functional and immunoassays. No detectable TF activity or antigen was observed on quiescent or ionophore-stimulated platelets. Similarly, no TF antigen was detected on mononuclear cells in nonstimulated whole blood, whereas in lipopolysaccharide (LPS)-stimulated blood a significant fraction of monocytes express TF. Our data indicate that the concentration of physiologically active TF in non-cytokine-stimulated blood from healthy individuals cannot exceed and is probably lower than 20 fM.

Published

2005

22. Statins and blood coagulation.

Author

Undas A, Brummel-Ziedins KE, and Mann KG

Subjects

Animals, Anticholesteremic Agents pharmacology, Anticholesteremic Agents therapeutic use, Anticoagulants pharmacology, Anticoagulants therapeutic use, Arteriosclerosis blood, Blood Coagulation Factors metabolism, Blood Proteins metabolism, Factor VII metabolism, Fibrinogen metabolism, Humans, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Models, Biological, Protein Prenylation drug effects, Staphylococcal Protein A metabolism, Thrombin biosynthesis, Thrombomodulin biosynthesis, Thrombophilia drug therapy, Thromboplastin biosynthesis, Venous Thrombosis drug therapy, Venous Thrombosis prevention & control, Blood Coagulation drug effects, Hydroxymethylglutaryl-CoA Reductase Inhibitors pharmacology, Protein Processing, Post-Translational drug effects, Thrombophilia prevention & control

Abstract

The 3-hydroxy-3-methylglutaryl (HMG)-coenzyme A (CoA) reductase inhibitors (statins) have been shown to exhibit several vascular protective effects, including antithrombotic properties, that are not related to changes in lipid profile. There is growing evidence that treatment with statins can lead to a significant downregulation of the blood coagulation cascade, most probably as a result of decreased tissue factor expression, which leads to reduced thrombin generation. Accordingly, statin use has been associated with impairment of several coagulant reactions catalyzed by this enzyme. Moreover, evidence indicates that statins, via increased thrombomodulin expression on endothelial cells, may enhance the activity of the protein C anticoagulant pathway. Most of the antithrombotic effects of statins are attributed to the inhibition of isoprenylation of signaling proteins. These novel properties of statins, suggesting that these drugs might act as mild anticoagulants, may explain, at least in part, the therapeutic benefits observed in a wide spectrum of patients with varying cholesterol levels, including subjects with acute coronary events. The HMG-CoA reductase inhibitors (statins) have been shown to exhibit several vascular protective effects, including antithrombotic properties, that are not related to changes in lipid profile. Treatment with statins can lead to a significant downregulation of the blood coagulation cascade, most probably as a result of decreased tissue factor expression, which leads to reduced thrombin generation.

Published

2005

23. Reference ranges for rotational thromboelastometry in male Sprague Dawley rats.

Author

Vigiola Cruz, Mariana, Luker, Jenna N., Carney, Bonnie C., Brummel-Ziedins, Kathleen E., Bravo, Maria-Cristina, Orfeo, Thomas, Chen, Jason H., Moffatt, Lauren T., and Shupp, Jeffrey W.

Subjects

ANIMAL experimentation, BLOOD coagulation, BLOOD coagulation disorders, BLOOD coagulation tests, RATS, REFERENCE values, THROMBELASTOGRAPHY, LABORATORY equipment & supplies

Abstract

Background: A functional coagulation assay was used to investigate the extrinsic pathway of coagulation on citrated whole blood samples from healthy adult male Sprague Dawley rats using the mini cup and pin system. Methods: Reference values for coagulation parameters from forty-three animals were calculated using data obtained from the ROTEM® delta hemostasis analyzer with the EXTEM test. Results: The following ranges, presented as the 2.5-97.5 percentiles, were established: CT [18-77], CFT [20-80], α [73-86], MCF [53-70], and ML [1-22], along with others. Conclusions: These reference ranges can be used in future studies in rats to identify clinically significant coagulopathies. [ABSTRACT FROM AUTHOR]

Published

2017

24. The influence of prophylactic factor VIII in severe hemophilia A

Author

Gissel, Matthew, Whelihan, Matthew F, Ferris, Lauren A, Mann, Kenneth G, Rivard, Georges E, and Brummel-Ziedins, Kathleen E

Subjects

Adult, Cohort Studies, Young Adult, Factor VIII, Adolescent, Blotting, Western, Thrombin, Humans, Regression Analysis, Computer Simulation, Hemophilia A, Blood Coagulation, Article

Abstract

Haemophilia A individuals displaying a similar genetic defect have heterogeneous clinical phenotypes. Our objective was to evaluate the underlying effect of exogenous factor (f)VIII on tissue factor (Tf)-initiated blood coagulation in severe haemophilia utilizing both empirical and computational models. We investigated twenty-five clinically severe haemophilia A patients. All individuals were on fVIII prophylaxis and had not received fVIII from 0.25 to 4 days prior to phlebotomy. Coagulation was initiated by the addition of Tf to contact-pathway inhibited whole blood ± an anti-fVIII antibody. Aliquots were quenched over 20 min and analyzed for thrombin generation and fibrin formation. Coagulation factor levels were obtained and used to computationally predict thrombin generation with fVIII set to either zero or its value at the time of the draw. As a result of prophylactic fVIII, at the time of the blood draw, the individuals had fVIII levels that ranged from1% to 22%. Thrombin generation (maximum level and rate) in both empirical and computational systems increased as the level of fVIII increased. FXIII activation rates also increased as the fVIII level increased. Upon suppression of fVIII, thrombin generation became comparable in both systems. Plasma composition analysis showed a negative correlation between bleeding history and computational thrombin generation in the absence of fVIII. Residual prophylactic fVIII directly causes an increase in thrombin generation and fibrin cross-linking in individuals with clinically severe haemophilia A. The combination of each individual's coagulation factors (outside of fVIII) determine each individual's baseline thrombin potential and may affect bleeding risk.

Published

2011

25. The Prothrombotic Phenotypes in Familial Protein C Deficiency Are Differentiated by Computational Modeling of Thrombin Generation.

Author

Brummel-Ziedins, Kathleen E., Orfeo, Thomas, Callas, Peter W., Gissel, Matthew, Mann, Kenneth G., Bovill, Edwin G., and Miyata, Toshiyuki

Subjects

*THROMBOSIS, *THROMBIN, *BLOOD coagulation, *GENDER, *BIOLOGICAL mathematical modeling

Abstract

The underlying cause of thrombosis in a large protein C (PC) deficient Vermont kindred appears to be multicausal and not explained by PC deficiency alone. We evaluated the contribution of coagulation factors to thrombin generation in this population utilizing a mathematical model that incorporates a mechanistic description of the PC pathway. Thrombin generation profiles for each individual were generated with and without the contribution of the PC pathway. Parameters that describe thrombin generation: maximum level (MaxL) and rate (MaxR), their respective times (TMaxL, TMaxR), area under the curve (AUC) and clotting time (CT) were examined in individuals ±PC mutation, ±prothrombin G20210A polymorphism and ±thrombosis history (DVT or PE). This family (n = 364) is shifted towards greater thrombin generation relative to the mean physiologic control. When this family was analyzed with the PC pathway, our results showed that: carriers of the PC mutation (n = 81) had higher MaxL and MaxR and greater AUC (all p<0.001) than non-carriers (n = 283); and individuals with a DVT and/or PE history (n = 13) had higher MaxL (p = 0.005) and greater AUC (p<0.001) than individuals without a thrombosis history (n = 351). These differences were further stratified by gender, with women in all categories generating more thrombin than males. These results show that all individuals within this family with or without PC deficiency have an increased baseline procoagulant potential reflective of increased thrombin generation. In addition, variations within the plasma composition of each individual can further segregate out increased procoagulant phenotypes, with gender-associated plasma compositional differences playing a large role. [ABSTRACT FROM AUTHOR]

Published

2012

26. Factor Xa Inhibition Reduces Coagulation Activity but Not Inflammation Among People With HIV: A Randomized Clinical Trial.

Author

Baker, Jason V, Wolfson, Julian, Peterson, Tess, Mooberry, Micah, Gissel, Matthew, Mystakelis, Harry, Henderson, Michael W, Garcia-Myers, Kelly, Rhame, Frank S, Schacker, Timothy W, Brummel-Ziedins, Kathleen E, Sereti, Irini, Key, Nigel S, and Tracy, Russell P

Subjects

FIBRIN fragment D, CLINICAL trials, PATHOLOGY, HIV, BLOOD coagulation

Abstract

Background Coagulation activity among persons with HIV is associated with end-organ disease risk, but the pathogenesis is not well characterized. We tested a hypothesis that hypercoagulation contributes to disease risk, in part, via upregulation of inflammation. Methods Treatment effects of edoxaban (30 mg), a direct factor Xa inhibitor, vs placebo were investigated in a randomized, double-blind crossover trial among participants with HIV and viral suppression and D-dimer levels ≥100 ng/mL. During each 4-month crossover period, blood measures of coagulation, inflammation, and immune activation were assessed. Analyses of change on edoxaban vs change on placebo used linear mixed models. Results Forty-four participants were randomized, and 40 completed at least 1 visit during each study period. The mean age was 49 years, and the CD4+ count was 739 cells/mm3. Edoxaban treatment led to declines in D-dimer (44%) and thrombin-antithrombin complex (26%) but did not lower inflammatory or immune activation measures. More bruising or bleeding events occurred during edoxaban (n = 28) than during placebo or no drug periods (n = 15). Conclusions The direct factor Xa inhibitor edoxaban led to a substantial reduction in coagulation but no effect on inflammation or immune activation. These results do not support that hypercoagulation contributes to ongoing inflammation during chronic antiretroviral therapy–treated HIV disease. [ABSTRACT FROM AUTHOR]

Published

2020

27. Tissue factor–dependent thrombin generation across pregnancy.

Author

McLean, Kelley C., Bernstein, Ira M., and Brummel-Ziedins, Kathleen E.

Subjects

PREGNANCY, BLOOD coagulation factors, THROMBIN, LONGITUDINAL method, OBSTETRICS, PREGNANT women, THROMBOPLASTIN, BLOOD coagulation

Abstract

Objective: Normal pregnancy results in a prothrombotic state. Studies that have investigated the capacity of pregnant women to generate thrombin are limited. Our aim was to evaluate thrombin generation longitudinally from the preconception period, through pregnancy, and after pregnancy. Study Design: We evaluated young, healthy nulligravid women (n = 20) at 4 time points and compared the data with 10 control women at 2 time points. Coagulation was initiated with tissue factor in contact pathway inhibited plasma, and thrombin generation was determined in the presence of a fluorogenic substrate. Results: The maximum level and rate of thrombin generation increased during pregnancy; the highest level and rate occurred in late pregnancy compared with prepregnancy (P < .001). Subsequently, thrombin generation decreased in the postpregnancy samples that included maximum level, rate, and area under the curve (P < .001). Conclusion: Our data provide evidence for an increase in tissue factor–dependent thrombin generation with pregnancy progression, followed by a return to prepregnancy thrombin levels. [ABSTRACT FROM AUTHOR]

Published

2012

28. Utilizing Plasma Composition Data to Help Determine Procoagulant Dynamics in Patients with Thermal Injury: A Computational Assessment.

Author

Bravo, Maria Cristina, Tejiram, Shawn, McLawhorn, Melissa M, Moffatt, Lauren T, Orfeo, Thomas, Jett-Tilton, Marti, Pusateri, Anthony E, Shupp, Jeffrey W, and Brummel-Ziedins, Kathleen E

Subjects

*THROMBIN, *BLOOD coagulation factors, *ANALYSIS of variance, *BLOOD coagulation tests, *BURNS & scalds, *BLOOD coagulation, *COMPARATIVE studies, *LONGITUDINAL method, *RESEARCH methodology, *MEDICAL cooperation, *PHARMACOKINETICS, *RESEARCH, *TIME, *PILOT projects, *EVALUATION research, *RECEIVER operating characteristic curves

Abstract

Introduction: The development of methods that generate individualized assessments of the procoagulant potential of burn patients could improve their treatment. Beyond its role as an essential intermediate in the formation of thrombin, factor (F)Xa has systemic effects as an agonist to inflammatory processes. In this study, we use a computational model to study the FXa dynamics underlying tissue factor-initiated thrombin generation in a small cohort of burn patients.Materials and Methods: Plasma samples were collected upon admission (Hour 0) from nine subjects (five non-survivors) with major burn injuries and then at 48 hours. Coagulation factor concentrations (II, V, VII, VIII, IX, X, TFPI, antithrombin (AT), protein C (PC)) were measured and used in a computational model to generate time course profiles for thrombin (IIa), FXa, extrinsic tenase, intrinsic tenase and prothrombinase complexes upon a 5 pM tissue factor stimulus in the presence of 1 nM thrombomodulin. Parameters were extracted from the thrombin and FXa profiles (including max rate (MaxRIIa and MaxRFXa) and peak level (MaxLIIa and MaxLFXa)). Procoagulant potential was also evaluated by determining the concentration of the complexes at select times. Parameter values were compared between survivors and non-survivors in the burn cohort and between the burn cohort and a simulation based on the mean physiological (100%) concentration for all factor levels.Results: Burn patients differed at Hour 0 (p < 0.05) from 100% mean physiological levels for all coagulation factor levels except FV and FVII. The concentration of FX, FII, TFPI, AT and PC was lower; FIX and FVIII were increased. The composition differences resulted in all nine burn patients at Hour 0 displaying a procoagulant phenotype relative to 100% mean physiological simulation (MaxLIIa (306 ± 90 nM vs. 52 nM), MaxRIIa (2.9 ± 1.1 nM/s vs. 0.3 nM/s), respectively p < 0.001); MaxRFXa and MaxLFXa were also an order of magnitude greater than 100% mean physiological simulation (p < 0.001). When grouped by survival status and compared at the time of admission, non-survivors had lower PC levels (56 ± 18% vs. 82 ± 9%, p < 0.05), and faster MaxRFXa (29 ± 6 pM/s vs. 18 ± 6 pM/s, p < 0.05) than those that survived; similar trends were observed for all other procoagulant parameters. At 48 hours when comparing non-survivors to survivors, TFPI levels were higher (108 ± 18% vs. 59 ± 18%, p < 0.05), and MaxRIIa (1.5 ± 1.4 nM/s vs. 3.6 ± 0.7 nM/s, p < 0.05) and MaxRFXa (13 ± 12 pM/s vs. 35 ± 4 pM/s, p < 0.05) were lower; similar trends were observed with all other procoagulant parameters. Overall, between admission and 48 hours, procoagulant potential, as represented by MaxR and MaxL parameters for thrombin and FXa, in non-survivors decreased while in survivors they increased (p < 0.05). In patients that survived, there was a positive correlation between FX levels and MaxLFXa (r = 0.96) and reversed in mortality (r= -0.91).Conclusions: Thrombin and FXa generation are increased in burn patients at admission compared to mean physiological simulations. Over the first 48 hours, burn survivors became more procoagulant while non-survivors became less procoagulant. Differences between survivors and non-survivors appear to be present in the underlying dynamics that contribute to FXa dynamics. Understanding how the individual specific balance of procoagulant and anticoagulant proteins contributes to thrombin and FXa generation could ultimately guide therapy and potentially reduce burn injury-related morbidity and mortality. [ABSTRACT FROM AUTHOR]

Published

2019