Your search keyword '"Hackeng, T. M."' showing total 4 results

1. Letter: In response to a recent letter by Prior et al.

Author

van der Beelen SHE, Agten SM, Suylen DPL, Wichapong K, Hrdinova J, Mees BME, Spronk HMH, and Hackeng TM

Published

2021

2. Effect of blood loss during caesarean section on coagulation parameters.

Author

Wasserloos A, Thomassen MCLGD, Costa SD, Zenclussen A, Tchaikovski V, Hackeng TM, Stickeler E, and Tchaikovski SN

Subjects

Blood Coagulation, Female, Germany, Humans, Pregnancy, Prospective Studies, Activated Protein C Resistance, Cesarean Section adverse effects

Abstract

Introduction: Venous thrombosis is the leading cause of pregnancy-related maternal morbidity and mortality. The thrombosis risk is increased by caesarean section and blood loss, though underlying mechanisms of these prothrombotic changes remain unknown., Materials and Methods: This prospective study recruited 50 pregnant women at term undergoing elective caesarean section at University Hospital Magdeburg, Germany. Blood loss during surgery was correlated with the changes in total protein S, full length TFPI (TFPI fl ), prothrombin, the endogenous thrombin potential (ETP) and resistance to activated protein C (APCsr) determined via calibrated automated thrombography., Results: Mean blood loss was 506 ml (95%CI: 456 to 557 ml). Total protein S was 0.63 (95%CI: 0.60 to 0.67) U/ml preoperatively, decreased by 14.8% after caesarean section and almost normalised five days later. TFPI fl was 0.47 (95%CI: 0.41 to 0.53) U/ml before, remained unchanged immediately after and increased by 11.5% five days after surgery. Prothormbin was 1.10 (95%CI: 1.03 to 1.16) U/ml preoperatively, reduced by 10.4% immediately after and increased again five days after caesarean section, exceeding the preoperative values by 4.4% (-0.7 to 9.6). The ETP decreased by 3.9%, whereas the APCsr increased by 37.0% immediately after caesarean section. The changes in total protein S, prothrombin, thrombin generation and APC resistance showed a trend to be more pronounced in the subgroups with higher blood loss., Discussion: Moderate blood loss during caesarean section hardly reduces thrombin generation but aggravates pregnancy-induced APC resistance and combined deficiency of TFPI and protein S, which can account for the increased thrombosis risk in early puerperium., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

3. Design and synthesis of a multivalent catch-and-release assay to measure circulating FXIa.

Author

van der Beelen SHE, Agten SM, Suylen DPL, Wichapong K, Hrdinova J, Mees BME, Spronk HMH, and Hackeng TM

Subjects

Humans, Kinetics, Factor XIa metabolism, Thrombosis

Abstract

Background: Decreased blood coagulation factor (F)XIa levels have been shown to protect from thrombosis without bleeding side effects, but less is known on effects of increased FXIa levels. Studies are hampered by lack of a reliable and robust method for FXIa quantification in blood. We aim to develop a new assay employing a unique multivalent catch-and-release system. The system selectively isolates and protects homodimeric FXIa from plasma and releases free FXIa allowing subsequent quantification., Methods: A dynamic multivalent construct was synthesized by complexing four identical FXIa inhibitors from the snake Bungarus Fasxiatus to avidin through desthiobiotin-PEG-linkers, allowing dissociation of FXIa by excess biotin. PEG-linker lengths were optimised for FXIa inhibitory activity and analysed by Michaelis-Menten kinetics. Finally, the catch-and-release assay was validated in buffer and plasma model systems., Results: Monovalent and multivalent inhibitor constructs were successfully obtained by total chemical synthesis. Multimerisation of Fasxiator resulted in a 30-fold increase in affinity for FXIa from 1.6 nM to 0.05 nM. With use of this system, FXIa could be quantified down to a concentration of 7 pM in buffer and 20 pM in plasma., Conclusion: In this proof-of-concept study, we have shown that the catch-and-release approach is a promising technique to quantify FXIa in plasma or buffer. By binding FXIa to the multivalent construct directly after blood drawing, FXIa is hypothesized to be inaccessible for serpin inhibition or auto inactivation. This results in a close reflection of actual circulating FXIa levels at the moment of blood drawing., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

4. Protein S is a cofactor for tissue factor pathway inhibitor.

Author

Rosing J, Maurissen LF, Tchaikovski SN, Tans G, and Hackeng TM

Subjects

Blood Coagulation Factors metabolism, Factor Xa Inhibitors, Humans, Kinetics, Lipoproteins analysis, Lipoproteins genetics, Protein S analysis, Protein S pharmacology, Receptors, Cell Surface metabolism, Thrombin biosynthesis, Thrombosis pathology, Lipoproteins metabolism, Protein S metabolism, Thromboplastin antagonists & inhibitors, Thromboplastin metabolism

Abstract

Protein S is a vitamin K-dependent protein that acts as a cofactor of the anticoagulant protein APC. However, protein S also exhibits anticoagulant activity in the absence of APC. Thrombin generation experiments in normal plasma and in plasma deficient in tissue factor pathway inhibitor (TFPI) and/or protein S demonstrated that protein S stimulates the inhibition of TF by TFPI. Kinetic analysis in model systems containing purified proteins showed that protein S enhances the formation of the binary FXa:TFPI complex by reducing the Ki of TFPI from approximately 4 nM to approximately 0.5 nM. Enhancement of inhibitory activity of TFPI by protein S is only observed with full-length TFPI and in the presence of a negatively charged phospholipid surface. The Ki decrease brings the TFPI concentration necessary for FXa:TFPI complex formation within range of the plasma TFPI concentration which increases FXa:TFPI complex formation and accelerates feedback inhibition of the TF pathway by enhancing the formation of the quaternary TFPI:FXa:TF:FVIIa complex. Thus, protein S is not only a cofactor of APC, but also of TFPI. A reduced TFPI cofactor activity may contribute to the increased risk of venous thrombosis in protein-S deficient individuals. Using calibrated automated thrombography we have developed two assays that enable quantification of the functional activity of the TFPI/protein S system in plasma. These assays show that the activity of the TFPI/protein S system is greatly impaired in oral contraceptive users.

Published

2008