Many coagulation parameters, such as PT or aPTT, show age-dependency. In this study we investigated if the generation of thrombin, possibly better reflecting overall haemostasis, shows an age-dependency. Thrombin generation was measured in platelet poor plasma of 121 children and 86 adults at different ages by means of calibrated automated thrombography (CAT). Correlation analysis shows that endogenous thrombin potential (ETP) (r = 0.702), lag time (r = -0.266), peak (r = 0.533) and time to peak (r = -0.214) are significantly correlated with age (p < 0.01). 'Younger' (age limit 35 years) and 'older' adults were compared with groups of children and adolescent aged between 0.5 and 6 years, 7 and 11 years and 12 to 17 years by means of the Mann-Whitney-U-Test. ETP values of all children and adolescents were significantly lower than those of adults. In the group of the youngest children, additionally shorter lag times and times to peak and lower peak levels differed significantly from those of adults. In the group of 7- to 11-year-old children, lag times were significantly longer than those of both groups of adults, while lower peaks and longer times to peak differed only from the group of the 'older' adults. In the group of the 12- to 17-year-olds, the values of ETP were lower than those of adults. In addition, both adult groups differed significantly in all studied parameters. Our results show an age-dependency of thrombin generation even beyond the juvenile period. If thrombin generation measurement is to be used as a routine method, age has to be considered. Assuming that thrombin potential is an indicator for the risk of thrombosis, our findings are in accordance with the observation of an increased incidence of thrombembolic disease with higher age.
Albumin is the most abundant plasma protein. Critical illness is often associated with altered, predominately decreased, serum albumin levels. This hypoalbuminaemia is usually corrected by administration of exogenous albumin. This study aimed to track the concentration-dependent influence of albumin on blood coagulation in vitro. Whole blood (WB) samples from 25 volunteers were prepared to contain low (19.3 ± 7.7 g/L), physiological (45.2 ± 7.8 g/L), and high (67.5 ± 18.1 g/L) levels of albumin. Haemostatic profiling was performed using a platelet function analyzer (PFA) 200, impedance aggregometry, a Cone and Platelet analyzer (CPA), calibrated automated thrombogram, and thrombelastometry (TEM). Platelet aggregation-associated ATP release was assessed via HPLC analysis. In the low albumin group, when compared to the physiological albumin group, we found: i) shortened PFA 200-derived closure times indicating increased primary haemostasis; ii) increased impedance aggregometry-derived amplitudes, slopes, ATP release, as well as CPA-derived average size indicating improved platelet aggregation; iii) increased TEM-derived maximum clot firmness and alpha angles indicating enhanced clot formation. TEM measurements indicated impaired clot formation in the high albumin group compared with the physiological albumin group. Thus, albumin exerted significant anticoagulant action. Therefore, low albumin levels, often present in cancer or critically ill patients, might contribute to the frequently occurring venous thromboembolism.
Pregnancy is associated with substantial changes in the haemostatic system and a six-fold higher incidence of venous thromboembolism. Conventional global tests, such as prothrombin time and activated partial thromboplastin time, do not definitely detect this hypercoagulable condition. We investigated whether the changes in haemostatic system during pregnancy are reflected in the calibrated automated thrombography (CAT). Thrombin generation was measured in platelet-poor plasma (PPP) of 150 healthy pregnant women without any pregnancy associated diseases by means of CAT. In addition, prothrombin (FII), antithrombin (AT), protein S, protein C, tissue factor pathway inhibitor (TFPI), plasminogen activator inhibitor-1 (PAI-1), thrombin-antithrombin complex (TAT), and prothrombin fragments 1+2 (F1+2) were measured. Endogenous thrombin potential (ETP) and peak of thrombin generation increased significantly with gestational weeks, while lag time and time to peak remained unchanged. A significant increase of PAI-1, TFPI, F1+2 and TAT as well as a significant decrease of free protein S, protein S antigen, and protein S activity was observed. Levels of AT and protein C remained stable during pregnancy. Division of population in trimester of pregnancy and analysis of differences between the trimesters showed rather similar results. Our study shows that endogenous thrombin potential does increase with duration of normal uncomplicated pregnancy. Whether parameters of continuous thrombin generation will correlate with thrombembolic disease remains to be shown.
Summary.Neonates have an excellent hemostasis despite, in comparison to adults, markedly decreased and delayed ability to generate thrombin. Only 30-50% of peak adult thrombin activity can be produced in neonatal plasma by means of conventional in vitro assays. We show that in contrast to conventional activation, activation with small amounts of lipidated tissue factor (<10 pmol L À1 ) results in shorter clotting timesandfasteractivatedfactorX-andthrombingenerationin neonates compared with adults due to the concomitant action of low tissue factor pathway inhibitor and antithrombin. The concentrations of both inhibitors in cord plasma are approximately 50% of the respective adult values. After addition of 2.5 pmol L À1 lipidated tissue factor, cord plasma clotted $90 s earlier than adult plasma and the amount of free thrombin generated was $90% of adult value (291 AE 14 vs. 329 AE 16 nmol L À1 min À1 , P < 0.01). Our results might help to explain the clinically observed excellent hemostasis of neonates despite low levels of procoagulant factors.
Monoclonal antibody 4E10 but not 2F5 or 2G12 showed autoreactive binding specificities. Infusion of 4E10 resulted in transient low anticardiolipin titers. Although an increased thromboembolic risk cannot definitely be excluded, this risk appears to be low and likely depend on underlying disorders.
Orthostatic stress activates the coagulation system. The extent of coagulation activation with full orthostatic load leading to presyncope is unknown. We examined in 7 healthy males whether presyncope, using a combination of head up tilt (HUT) and lower body negative pressure (LBNP), leads to coagulation changes as well as in the return to baseline during recovery. Coagulation responses (whole blood thrombelastometry, whole blood platelet aggregation, endogenous thrombin potential, markers of endothelial activation and thrombin generation), blood cell counts and plasma mass density (for volume changes) were measured before, during, and 20 min after the orthostatic stress. Maximum orthostatic load led to a 25% plasma volume loss. Blood cell counts, prothrombin levels, thrombin peak, endogenous thrombin potential, and tissue factor pathway inhibitor levels increased during the protocol, commensurable with hemoconcentration. The markers of endothelial activation (tissue factor, tissue plasminogen activator), and thrombin generation (F1+2, prothrombin fragments 1 and 2, and TAT, thrombin-antithrombin complex) increased to an extent far beyond the hemoconcentration effect. During recovery, the markers of endothelial activation returned to initial supine values, but F1+2 and TAT remained elevated, suggestive of increased coagulability. Our findings of increased coagulability at 20 min of recovery from presyncope may have greater clinical significance than short-term procoagulant changes observed during standing. While our experiments were conducted in healthy subjects, the observed hypercoagulability during graded orthostatic challenge, at presyncope and in recovery may be an important risk factor particularly for patients already at high risk for thromboembolic events (e.g. those with coronary heart disease, atherosclerosis or hypertensives).
Our data indicate that the re-ambulation period is associated with a tendency towards hypercoagulability: ttPeak and StartTail were significantly shorter, Peak and VELINDEX were significantly higher compared to baseline. Moreover, plasma levels of F1 + 2, TAT, FVII and FVIII were significantly higher compared to baseline. The results from our study suggest that bed rest by itself is not associated with hypercoagulable states in healthy subjects.
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