P. Cooper

High prevalence of a mutation in the factor V gene within the U.K. population: relationship to activated protein C resistance and familial thrombosis

Summary. Recent findings have indicated the importance of factor V (FV) in causing resistance to activated protein C (APC) in a high proportion of patients with venous thrombosis. This prompted us to investigate whether resistance could be due to defective inactivation of FVa by APC. Consequently, we amplified a 3.2 kb fragment of the FV gene sequence encoding the heavy chain APC cleavage site. DNA analysis showed a guanine to adenine transition at nucleotide 1691 in all affected members of two families with inherited APC resistance associated with thrombosis and confirmed suspected homozygosity in two individuals. The mutation, in heterozygous form, was also found in ˜3.5% of our normal population (n = 144) and correlated with low APC resistance. The high prevalence of this mutation suggests that it may be a major contributory factor in early thrombosis.

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.

The fluorogenic calibrated automated thrombin-generation assay is influenced by contact pathway activation in platelet-rich and platelet-poor plasma. This influence lessens with increasing tissue factor (TF) concentrations and is inhibited by corn trypsin inhibitor (CTI). CTI is expensive and at what TF concentration its influence becomes irrelevant is unclear. Spiking of factor VIII (FVIII)-depleted plasma with FVIII, in samples without CTI, shows a plateau of thrombin generation at low normal FVIII levels. Given the association with thrombosis at high levels, a continuing increase in thrombin generation would be expected. We studied the effect of CTI on this relation by spiking experiments up to 4.8 IU/ml at 1 pmol/l TF and compared the influence of CTI at 1 and 5 pmol/l in platelet-poor plasma. CTI significantly influences thrombin generation in platelet-poor plasma at 1 pmol/l TF (difference of means for endogenous thrombin potential of 232.5 nmol/l per min, P < 0.0001) and peak of 48 nmol/l (P < 0.0001)) but not at 5 pmol/l. Spiking experiments without CTI confirm the hyperbolic relation between FVIII coagulant activity (FVIII:C) and endogenous thrombin potential with a plateau at 0.70–1.40 IU/ml. With CTI, a near-linear response up to 1.0 IU/ml was found with a plateau at 2.4–4.8 IU/ml. For peak thrombin, no plateau was reached with CTI. The present study confirms and extends previous data on CTI and the relationship between FVIII:C and thrombin generation. CTI is not necessary at 5 pmol/l TF, and thrombin generation remains dependent on FVIII:C up to 4.8 IU/ml at 1 pmol/l with CTI. Higher levels than previously thought may be needed to normalize thrombin generation.

Thrombin generation assays are superior to traditional tests in assessing anticoagulation reversal in vitro

Even though new anticoagulants are being devised with the notion that they do not require regular monitoring, when bleeding occurs, it is important to have an antidote and a reliable test to confirm whether the anticoagulant effects are persisting. We examined the effects of five heparinoids, unfractionated heparin (UFH), tinzaparin, enoxaparin, danaparoid and fondaparinux on the traditional APTT and anti-Xa assays as well as on the calibrated automated thrombogram (CAT). We also studied the ability of protamine sulphate (PS), NovoSeven, FEIBA and FFP to reverse maximum anticoagulation induced by the different heparinoids. The CAT was the only test to detect the coagulopathy of all the anticoagulants. PS produced complete reversal of UFH, and this could be monitored with all three tests. Tinzaparin can also be completely neutralised in vitro with high doses of PS, but the maximum enoxaparin reversal achieved with PS is only approximately 60%. Fondaparinux does not significantly affect the APTT and PS has no significant effect on its reversal. Only NovoSeven was able to correct the fondaparinux induced CAT abnormalities whilst having no effect on the anti-Xa level. None of the reversal agents was very effective in danaparoid spiked plasma but NovoSeven, at high dose, increased the ETP by 40% and reduced the anti-Xa level from 0.93 to 0.78 IU/ml. We conclude that the CAT is superior to the traditional coagulation tests in that it not only detects the coagulopathy of all the heparinoids but can be also be used to monitor their reversal.

Guidelines on the laboratory aspects of assays used in haemostasis and thrombosis

Publications known to the writing group were supplemented with additional papers identified by searching Medline/PubMed for publications in the last 12 years using keywords: coagulation assays, amidolytic assays, haemostasis assays, and thrombophilia testing, in core clinical journals and English language. Additional relevant articles were identified by screening reference lists and by publications known to the writing group. The writing group produced the draft guideline which was subsequently revised by consensus by members

Fibrinolysis during normal human pregnancy: complex inter‐relationships between plasma levels of tissue plasminogen activator and inhibitors and the euglobulin clot lysis time

Summary. Although it has been previously considered that blood fibrinolytic capacity is reduced during pregnancy, this has been disputed. Also the mechanisms underlying any change in fibrinolysis in pregnancy require clarification. We have therefore measured the plasma activity of tissue plasminogen activator (t‐PA) and inhibitors (t‐PAi) and the concentration of the pregnancy specific inhibitor (PA12) antigen, as well as the euglobulin clot lysis time (ECLT) during normal pregnancy. Plasma concentrations of fibrinogen, plasminogen, fibrin(ogen) degradation products (FDP) and cross‐linked products (D‐dimer) were also monitored. We confirm a marked reduction of the fibrinolytic activity of the plasma euglobulin fraction from the second trimester, and a parallel reduction in t‐PA and increase in t‐PAi activities, with rapid return to non‐pregnant levels post‐partum. In contrast, PAI2, whilst undetectable in non‐pregnant control plasma, was already measurable in the first trimester, increased through pregnancy, and remained at a high concentration up to at least 48 h post‐partum. Fibrinogen and plasminogen concentrations rose progressively through pregnancy and FDP and D‐dimer were frequently detectable in late pregnancy plasma. Changes in the ECLT and plasma t‐PA and t‐PAi activities in pregnancy cannot therefore be directly related to the concentration of PAI2 antigen. Also, despite the apparent marked reduction in fibrinolytic capacity fibrin(ogen) breakdown products are frequently present in increased plasma concentrations in late pregnancy.

Protein C and protein S in homozygous sickle cell disease: does hepatic dysfunction contribute to low levels?

The aim of this study was to confirm reports of low protein C (PC) and S (PS) concentrations in steady‐state patients with homozygous sickle cell (SS) disease when compared to a racially matched normal haemoglobin (AA) control group and to examine the mechanisms of this reduction with respect to hepatic function, coagulation activation and haematological indices.

Protein C, antithrombin III and plasminogen: effect of age, sex and blood group

Summary. We conducted a cross‐sectional study of antithrombin III (ATIII), protein C (PC) and plasminogen (Plg) concentrations in a population of healthy plasma donors in the Trent Region. The distribution of values for protein C was log normal whereas for ATIII and Plg the distributions were positively skewed and differed significantly from normal and log normal. Males had higher antithrombin III concentrations (mean 1·10 iu/ml, range 0·72–1·65) than females (mean 1·07 iu/ml, range 0·75–1·69) (P=0·001) and levels increased with age in women. Younger women aged 25–34 had significantly lower plasma concentrations of ATIII compared to males of similar age. For protein C, concentrations were higher in males (mean 1·07 u/ml, range 0·37–2·11) than in females (mean 1·01 u/ml, range 0·59–1·61) (P<0·001) and levels increased with age in both sexes (P<0·001). In women, a novel difference in protein C concentration between ABO blood groups was noted. There was no significant difference in plasminogen concentration between males and females, and in women plasminogen decreased with age (r=–0·205, P<0·001).

Wide variation in thrombin generation in patients with atrial fibrillation and therapeutic International Normalized Ratio is not due to inflammation.

Atrial fibrillation (AF) is a common cardiac arrhythmia with a 5–20% annual risk of stroke. Warfarin reduces this risk by at least 60%. Despite adequate anticoagulation within the target International Normalized Ratio (INR) range of 2·0–3·0, some patients still experience thrombotic and bleeding events. It is now possible to assess the intensity of anticoagulation with automated thrombin generation (TG) tests, such as the calibrated automated thrombogram (CAT). These tests were compared and an inverse relationship was found between the INR and CAT in 143 elderly AF patients. There was equally good correlation between the concentration of factors II, VII, IX and X and the INR and TG parameters. The peak thrombin was most strongly associated with the concentration of prothrombin fragment 1 + 2 in plasma. There was wide variability in TG parameters in patients with identical INR values, sometimes up to a fourfold difference. This TG variability in individuals with the same INR is not due to inflammation, at least when the latter is measured as the concentration of factor VIII coagulant activity, von Willebrand factor antigen, high sensitivity C‐reactive protein and fibrinogen. It was concluded that, although the TG and INR were closely correlated there was wide variability in peak thrombin and endogenous thrombin potential in patients within the INR therapeutic range, the cause of which remains unclear.

Calibrated automated thrombin generation and modified thromboelastometry in haemophilia A

INTRODUCTION Global coagulation tests may have a better relation with phenotype in haemophilia than traditional coagulation tests. These include the Calibrated Automated Thrombin generation assay (CAT) and modified thromboelastometry using low tissue factor triggering. Both have shown marked variability in thrombin generation and clot formation profiles respectively despite similar FVIII:C levels and have been suggested as means to monitor treatment. Data with modified thromboelastometry are largely limited to severe and moderate haemophiliacs. CAT measurements in haemophilia are generally performed at low TF concentrations (1 pM) because of a higher sensitivity for the intrinsic pathway at this concentration but is also sensitive for FVIII at higher concentrations (5 pM) and this has the advantage that inhibition of contact factor activation can be avoided. No formal comparison of both TF concentrations has been reported and the data on modified thromboelastometry in mild haemophilia are limited. METHODS In this study we compared thrombin generation at 1 and 5 pM in 57 haemophilia patients without exposure to treatment and 41 patients after treatment. We also assessed the sensitivity of thromboelastometry for haemophilia A in 29 patients. RESULTS AND CONCLUSION We found that CAT discriminates well between normal individuals and haemophilia patients; also FVIII:C correlates well with the ETP/peak. We found no clear advantages of measurements at 1 compared to 5 pM but found increased variation over time at 1 pM. The sensitivity of modified thromboelastometry for haemophilia A was less than CAT with abnormal measurements largely limited to severe and moderate patients. Larger studies correlating both methods with clinical outcome are required.

Further evidence that activated protein C resistance can be misdiagnosed as inherited functional protein S deficiency.

Summary. A recent report that activated protein C (APC) resistance interferes with functional protein S (PS) assays prompted us to re‐investigate two pedigrees previously diagnosed as having functional PS deficiency. APC resistance was demonstrated in all individuals with apparent functional PS deficiency. The latter diagnosis was shown to be due to the assay being non‐linear, functional protein S becoming normal at higher dilutions. This observation, taken in conjunction with results of in vitro recovery studies with purified PS, leads us to conclude that APC resistance was the primary disorder in both pedigrees. The misdiagnosis of APC resistance as functional PS deficiency can be prevented by performing the PS assay at several dilutions, including concentrations lower than those recommended by PS assay manufacturers. Subjects previously diagnosed as having functional PS deficiency should be re‐investigated for APC resistance.