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DOI: 10.1055/s-0040-1715102
Thrombin Generation and Cirrhosis: State of the Art and Perspectives
Abstract
Epidemiological and laboratory studies performed in the last decades have changed our understanding of coagulopathy in cirrhosis, from a condition at increased risk of hemorrhagic events to one at higher thrombotic risk. However, it is not clear whether the decrease in factors that promote (except factor [F] VIII) versus inhibit coagulation in patients with cirrhosis results in a rebalanced state or in a hypercoagulable phenotype. This issue can be partially addressed using thrombin generation assays (TGA), which unlike routine clotting tests (prothrombin time or activated partial thromboplastin time) are sensitive to both procoagulant factors and coagulation inhibitors. However, many preanalytical issues and variable analytical methodologies used in TGAs complicate data analysis and interlaboratory comparisons. The introduction of TGAs in which activators of the protein C pathway (particularly soluble forms of thrombomodulin [TM]) are added has allowed detection of a reduced anticoagulant effect of TM or even a hypercoagulable phenotype as judged by endogenous thrombin potential. However, inter- and intra-assay variability may be greater with this TGA variant compared with “standard” TGAs. TGAs also allowed identifying main determinants of the hypercoagulability phenotype in the presence of TM: acquired antithrombin and protein C deficiencies, and elevated FVIII levels. The aim of this narrative review is to summarize the preanalytical and methodological variables of TGAs and also the findings of the main studies that have evaluated TGAs in patients with cirrhosis. The review also provides some propositions for future studies and outlines some perspectives on the potential implementation of this promising tool in clinical practice for the study of coagulation in patients with cirrhosis.
Publikationsverlauf
Artikel online veröffentlicht:
20. August 2020
© 2020. Thieme. All rights reserved.
Thieme Medical Publishers
333 Seventh Avenue, New York, NY 10001, USA.
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References
- 1 Tsochatzis EA, Bosch J, Burroughs AK. Liver cirrhosis. Lancet 2014; 383 (9930): 1749-1761
- 2 Tripodi A, Mannucci PM. The coagulopathy of chronic liver disease. N Engl J Med 2011; 365 (02) 147-156
- 3 Drolz A, Horvatits T, Roedl K. , et al. Coagulation parameters and major bleeding in critically ill patients with cirrhosis. Hepatology 2016; 64 (02) 556-568
- 4 Lisman T, Porte RJ. Pathogenesis, prevention, and management of bleeding and thrombosis in patients with liver diseases. Res Pract Thromb Haemost 2017; 1 (02) 150-161
- 5 Basili S, Raparelli V, Napoleone L. , et al; PRO-LIVER Collaborators. Platelet count does not predict bleeding in cirrhotic patients: results from the PRO-LIVER study. Am J Gastroenterol 2018; 113 (03) 368-375
- 6 Northup PG, McMahon MM, Ruhl AP. , et al. Coagulopathy does not fully protect hospitalized cirrhosis patients from peripheral venous thromboembolism. Am J Gastroenterol 2006; 101 (07) 1524-1528 , quiz 1680
- 7 Søgaard KK, Horváth-Puhó E, Grønbaek H, Jepsen P, Vilstrup H, Sørensen HT. Risk of venous thromboembolism in patients with liver disease: a nationwide population-based case-control study. Am J Gastroenterol 2009; 104 (01) 96-101
- 8 Ambrosino P, Tarantino L, Di Minno G. , et al. The risk of venous thromboembolism in patients with cirrhosis. A systematic review and meta-analysis. Thromb Haemost 2017; 117 (01) 139-148
- 9 Intagliata NM, Caldwell SH, Tripodi A. Diagnosis, development, and treatment of portal vein thrombosis in patients with and without cirrhosis. Gastroenterology 2019; 156 (06) 1582-1599.e1
- 10 Lisman T, Leebeek FWG, de Groot PG. Haemostatic abnormalities in patients with liver disease. J Hepatol 2002; 37 (02) 280-287
- 11 Tripodi A. Liver disease and hemostatic (dys)function. Semin Thromb Hemost 2015; 41 (05) 462-467
- 12 Mann KG. Thrombin formation. Chest 2003; 124 (3, Suppl): 4S-10S
- 13 MacFarlane RG, Biggs R. A thrombin generation test; the application in haemophilia and thrombocytopenia. J Clin Pathol 1953; 6 (01) 3-8
- 14 Hemker HC, Giesen P, AlDieri R. , et al. The calibrated automated thrombogram (CAT): a universal routine test for hyper- and hypocoagulability. Pathophysiol Haemost Thromb 2002; 32 (5-6): 249-253
- 15 Kintigh J, Monagle P, Ignjatovic V. A review of commercially available thrombin generation assays. Res Pract Thromb Haemost 2017; 2 (01) 42-48
- 16 Hemker HC, Kremers R. Data management in thrombin generation. Thromb Res 2013; 131 (01) 3-11
- 17 Tripodi A. Thrombin generation assay and its application in the clinical laboratory. Clin Chem 2016; 62 (05) 699-707
- 18 Dargaud Y, Wolberg AS, Gray E, Negrier C, Hemker HC. Subcommittee on Factor VIII, Factor IX, and Rare Coagulation Disorders. Proposal for standardized preanalytical and analytical conditions for measuring thrombin generation in hemophilia: communication from the SSC of the ISTH. J Thromb Haemost 2017; 15 (08) 1704-1707
- 19 Gatt A, Riddell A, Calvaruso V, Tuddenham EG, Makris M, Burroughs AK. Enhanced thrombin generation in patients with cirrhosis-induced coagulopathy. J Thromb Haemost 2010; 8 (09) 1994-2000
- 20 Dargaud Y, Negrier C. Thrombin generation testing in haemophilia comprehensive care centres. Haemophilia 2010; 16 (02) 223-230
- 21 van Veen JJ, Gatt A, Cooper PC, Kitchen S, Bowyer AE, Makris M. Corn trypsin inhibitor in fluorogenic thrombin-generation measurements is only necessary at low tissue factor concentrations and influences the relationship between factor VIII coagulant activity and thrombogram parameters. Blood Coagul Fibrinolysis 2008; 19 (03) 183-189
- 22 Spronk HMH, Dielis AWJH, Panova-Noeva M. , et al. Monitoring thrombin generation: is addition of corn trypsin inhibitor needed?. Thromb Haemost 2009; 101 (06) 1156-1162
- 23 Rodgers SE, Wong A, Gopal RD, Dale BJ, Duncan EM, McRae SJ. Evaluation of pre-analytical variables in a commercial thrombin generation assay. Thromb Res 2014; 134 (01) 160-164
- 24 Le Quellec S, Paris M, Nougier C. , et al. Pre-analytical effects of pneumatic tube system transport on routine haematology and coagulation tests, global coagulation assays and platelet function assays. Thromb Res 2017; 153: 7-13
- 25 Tripodi A, Salerno F, Chantarangkul V. , et al. Evidence of normal thrombin generation in cirrhosis despite abnormal conventional coagulation tests. Hepatology 2005; 41 (03) 553-558
- 26 Tripodi A, Primignani M, Chantarangkul V. , et al. An imbalance of pro- vs anti-coagulation factors in plasma from patients with cirrhosis. Gastroenterology 2009; 137 (06) 2105-2111
- 27 Tripodi A, Primignani M, Lemma L. , et al. Detection of the imbalance of procoagulant versus anticoagulant factors in cirrhosis by a simple laboratory method. Hepatology 2010; 52 (01) 249-255
- 28 Tripodi A, Primignani M, Chantarangkul V. , et al. Global hemostasis tests in patients with cirrhosis before and after prophylactic platelet transfusion. Liver Int 2013; 33 (03) 362-367
- 29 Tripodi A, Primignani M, Lemma L, Chantarangkul V, Mannucci PM. Evidence that low protein C contributes to the procoagulant imbalance in cirrhosis. J Hepatol 2013; 59 (02) 265-270
- 30 Youngwon N, Kim J-E, Lim HS, Han K-S, Kim HK. Coagulation proteins influencing global coagulation assays in cirrhosis: hypercoagulability in cirrhosis assessed by thrombomodulin-induced thrombin generation assay. BioMed Res Int 2013; 2013: 856754
- 31 Tang W, Wang Y, Zhao X. , et al. Procoagulant imbalance aggravated with falling liver function reserve, but not associated with the presence of portal vein thrombosis in cirrhosis. Eur J Gastroenterol Hepatol 2015; 27 (06) 672-678
- 32 Tripodi A, Primignani M, Chantarangkul V. , et al. Thrombin generation in patients with cirrhosis: the role of platelets. Hepatology 2006; 44 (02) 440-445
- 33 Delahousse B, Labat-Debelleix V, Decalonne L, d'Alteroche L, Perarnau J-M, Gruel Y. Comparative study of coagulation and thrombin generation in the portal and jugular plasma of patients with cirrhosis. Thromb Haemost 2010; 104 (04) 741-749
- 34 Kleinegris M-C, Bos MHA, Roest M. , et al. Cirrhosis patients have a coagulopathy that is associated with decreased clot formation capacity. J Thromb Haemost 2014; 12 (10) 1647-1657
- 35 Potze W, Arshad F, Adelmeijer J. , et al. Differential in vitro inhibition of thrombin generation by anticoagulant drugs in plasma from patients with cirrhosis. PLoS One 2014; 9 (02) e88390
- 36 Chaireti R, Rajani R, Bergquist A. , et al. Increased thrombin generation in splanchnic vein thrombosis is related to the presence of liver cirrhosis and not to the thrombotic event. Thromb Res 2014; 134 (02) 455-461
- 37 Kremers RMW, Kleinegris M-C, Ninivaggi M. , et al. Decreased prothrombin conversion and reduced thrombin inactivation explain rebalanced thrombin generation in liver cirrhosis. PLoS One 2017; 12 (05) e0177020
- 38 Lebreton A, Sinegre T, Pereira B, Lamblin G, Duron C, Abergel A. Plasma hypercoagulability in the presence of thrombomodulin but not of activated protein C in patients with cirrhosis. J Gastroenterol Hepatol 2017; 32 (04) 916-924
- 39 Sinegre T, Duron C, Lecompte T. , et al. Increased factor VIII plays a significant role in plasma hypercoagulability phenotype of patients with cirrhosis. J Thromb Haemost 2018; 16 (06) 1132-1140
- 40 Russo FP, Zanetto A, Campello E. , et al. Reversal of hypercoagulability in patients with HCV-related cirrhosis after treatment with direct-acting antivirals. Liver Int 2018; 38 (12) 2210-2218
- 41 Bos S, van den Boom B, Kamphuisen PW. , et al. Haemostatic profiles are similar across all aetiologies of cirrhosis. Thromb Haemost 2019; 119 (02) 246-253
- 42 Lima-Oliveira G, Adcock DM, Salvagno GL, Favaloro EJ, Lippi G. Mixing of thawed coagulation samples prior to testing: is any technique better than another?. Clin Biochem 2016; 49 (18) 1399-1401
- 43 Favaloro EJ, Oliver S, Mohammed S. , et al. Potential misdiagnosis of von Willebrand disease and haemophilia caused by ineffective mixing of thawed plasma. Haemophilia 2017; 23 (05) e436-e443
- 44 Woodhams B, Girardot O, Blanco MJ, Colesse G, Gourmelin Y. Stability of coagulation proteins in frozen plasma. Blood Coagul Fibrinolysis 2001; 12 (04) 229-236
- 45 Perrin J, Depasse F, Lecompte T. French-speaking CAT group and under the aegis of GEHT, Participating centres from the French-speaking CAT group (all in France unless otherwise stated): Large external quality assessment survey on thrombin generation with CAT: further evidence for the usefulness of normalisation with an external reference plasma. Thromb Res 2015; 136 (01) 125-130
- 46 Dargaud Y, Trzeciak MC, Bordet JC, Ninet J, Negrier C. Use of calibrated automated thrombinography +/- thrombomodulin to recognise the prothrombotic phenotype. Thromb Haemost 2006; 96 (05) 562-567
- 47 Groeneveld D, Porte RJ, Lisman T. Thrombomodulin-modified thrombin generation testing detects a hypercoagulable state in patients with cirrhosis regardless of the exact experimental conditions. Thromb Res 2014; 134 (03) 753-756
- 48 Potze W, Adelmeijer J, Porte RJ, Lisman T. Preserved clot formation detected by the thrombodynamics analyzer in patients with cirrhosis. Thromb Res 2015; 135 (05) 1012-1016
- 49 Toulon P, Smirnov M, Triscott M. , et al. A new chromogenic assay (HemosIL ThromboPath) is sensitive to major prothrombotic risk factors affecting the protein C pathway. Results of a multicenter study. Thromb Res 2009; 124 (01) 137-143
- 50 Tripodi A. Detection of procoagulant imbalance. Modified endogenous thrombin potential with results expressed as ratio of values with-to-without thrombomodulin. Thromb Haemost 2017; 117 (05) 830-836
- 51 Lisman T, Bakhtiari K, Pereboom ITA, Hendriks HGD, Meijers JCM, Porte RJ. Normal to increased thrombin generation in patients undergoing liver transplantation despite prolonged conventional coagulation tests. J Hepatol 2010; 52 (03) 355-361
- 52 Fisher C, Patel VC, Stoy SH. , et al. Balanced haemostasis with both hypo- and hyper-coagulable features in critically ill patients with acute-on-chronic-liver failure. J Crit Care 2018; 43: 54-60
- 53 Lisman T, Bos S, Intagliata NM. Mechanisms of enhanced thrombin-generating capacity in patients with cirrhosis. J Thromb Haemost 2018; 16 (06) 1128-1131
- 54 Subcommittee on Control of Anticoagulation of the SSC of the ISTH. Towards a recommendation for the standardization of the measurement of platelet-dependent thrombin generation. J Thromb Haemost 2011; 9 (09) 1859-1861
- 55 Adcock DM, Favaloro EJ, Lippi G. Critical pre-examination variables in the hemostasis laboratory and their quality indicators. Clin Biochem 2016; 49 (18) 1315-1320
- 56 Tripodi A, Fracanzani AL, Chantarangkul V, Primignani M, Fargion S. Procoagulant imbalance in patients with non-alcoholic fatty liver disease. J Hepatol 2017; 66 (01) 248-250
- 57 Potze W, Sanyal AJ, Lisman T. Reply to: “Procoagulant imbalance in patients with non-alcoholic fatty liver disease”. J Hepatol 2017; 66 (01) 250-251
- 58 La Mura V, Tripodi A, Tosetti G. , et al. Resistance to thrombomodulin is associated with de novo portal vein thrombosis and low survival in patients with cirrhosis. Liver Int 2016; 36 (09) 1322-1330
- 59 Siguret V, Abdoul J, Delavenne X. , et al. Rivaroxaban pharmacodynamics in healthy volunteers evaluated with thrombin generation and the active protein C system: Modeling and assessing interindividual variability. J Thromb Haemost 2019; 17 (10) 1670-1682
- 60 Calzavarini S, Brodard J, Quarroz C. , et al. Thrombin generation measurement using the ST Genesia Thrombin Generation System in a cohort of healthy adults: normal values and variability. Res Pract Thromb Haemost 2019; 3 (04) 758-768
- 61 Lisman T, Kamphuisen PW, Northup PG, Porte RJ. Established and new-generation antithrombotic drugs in patients with cirrhosis - possibilities and caveats. J Hepatol 2013; 59 (02) 358-366
- 62 Lisman T, Kleiss S, Patel VC. , et al. In vitro efficacy of pro- and anticoagulant strategies in compensated and acutely ill patients with cirrhosis. Liver Int 2018; 38 (11) 1988-1996
- 63 Bos S, Schreuder T, Blokzijl H, Adelmeijer J, Lisman T, Kamphuisen PW. SAT-017-anticoagulant effect of edoxaban in patients with cirrhosis: the POET study. J Hepatol 2019; 70 (01) e632-e633
- 64 Rassi AB, d'Amico EA, Tripodi A. , et al. Fresh frozen plasma transfusion in patients with cirrhosis and coagulopathy: effect on conventional coagulation tests and thrombomodulin-modified thrombin generation. J Hepatol 2020; 72 (01) 85-94
- 65 Bernal W, Caldwell SH, Lisman T. Nails in the coffin of fresh frozen plasma to prevent or treat bleeding in cirrhosis?. J Hepatol 2020; 72 (01) 12-13
- 66 Ninivaggi M, Apitz-Castro R, Dargaud Y, de Laat B, Hemker HC, Lindhout T. Whole-blood thrombin generation monitored with a calibrated automated thrombogram-based assay. Clin Chem 2012; 58 (08) 1252-1259
- 67 Lisman T, Ariëns RAS. Alterations in fibrin structure in patients with liver diseases. Semin Thromb Hemost 2016; 42 (04) 389-396
- 68 Lisman T, Bakhtiari K, Adelmeijer J, Meijers JCM, Porte RJ, Stravitz RT. Intact thrombin generation and decreased fibrinolytic capacity in patients with acute liver injury or acute liver failure. J Thromb Haemost 2012; 10 (07) 1312-1319
- 69 Werner MJM, de Meijer VE, Adelmeijer J. , et al. Evidence for a rebalanced hemostatic system in pediatric liver transplantation: a prospective cohort study. Am J Transplant 2020; 20 (05) 1384-1392
- 70 Tripodi A, Ramenghi LA, Chantarangkul V. , et al. Normal thrombin generation in neonates in spite of prolonged conventional coagulation tests. Haematologica 2008; 93 (08) 1256-1259
- 71 Ruitenbeek K, Hugenholtz GCG, Adelmeijer J. , et al. Development of a hypercoagulable status in patients undergoing off-pump lung transplantation despite prolonged conventional coagulation tests. Am J Respir Crit Care Med 2015; 191 (02) 230-233