Prediction of individual factor VIII or IX level for the correction of thrombin generation in haemophilic patients.

BACKGROUND: The thrombin generation (TG) assay can assess individual clotting potential. The thrombin generation potential is correlated with the patient's bleeding phenotype and varies from one patient to the other for the same degree of factor VIII or IX deficiency. OBJECTIVE: To define in vitro for individual haemophilic patients the target factor VIII or IX level required to normalize their TG. PATIENTS/METHODS: Plasmas from 20 haemophilic patients were spiked with increasing levels of the deficient coagulation factor and TG parameters were measured. The relationships between factor levels and TG parameters were determined by linear regression. The normal range of thrombin generation was defined in 39 healthy male volunteers. RESULTS: Despite inter-individual heterogeneity in basal TG and responses to spiking, a linear relationship was found between factor VIII or IX levels and TG parameters for individual patients. Based on the individual responses of patient plasmas to spiking, it is possible to define in vitro the target factor VIII or IX levels needed to normalize the TG parameters. For both haemophilic A and haemophilic B patients, significant correlations were found between basal peak values and their correction slopes. The correction slope was steeper in haemophilic B patients, so the factor IX level needed to normalize the TG parameters was lower than for haemophilic A patients. CONCLUSIONS: The TG assay could be used to determine in vitro the patient-specific factor VIII or IX level to be reached to effectively normalize their TG. These in vitro results should be confirmed by ex-vivo studies.

Platelet function analyser (PFA-100) results and von Willebrand factor deficiency: a 16-year 'real-world' experience.

The platelet function analyser (PFA-100) is a biological tool designed to explore primary haemostasis. This system has thus been widely demonstrated as reliable in detecting von Willebrand factor (VWF) deficiency. However, most studies were based on patients benefitting from regular medical care and accurate diagnosis, and it would seem probable that the results were somewhat optimistic, and do not reflect its performances in 'real-world' situations. We have chosen to study the reliability of PFA-100 for screening VWF ristocetin cofactor (VWF:RCo) deficiency. We retrospectively analysed the results (n = 6431) of 4027 patients referred to our centre between October 1997 and June 2013 and in whom PFA-Epi, PFA-ADP, and VWF:RCo activity had been evaluated. We studied the influence of blood group on the results and the performances of each method in a subgroup of 213 patients with genetically confirmed von Willebrand disease. We have shown that the PFA-100 system, in our experience, constitutes an excellent screening test for detecting VWF:RCo deficiency, whatever the clinical situation, in 'real-world' conditions. The negative predictive value (NPV), the positive predictive value, the sensitivity and the specificity were respectively: 0.98, 0.51, 0.98 and 0.40. When values adjusted for blood group are used, NPV and sensitivity are inferior to those using normal values which have not been adjusted for blood group. We have shown the PFA-100 method to be more efficient in screening for VWF deficiency than the VWF:RCo technique.

Management of bleeding in severe factor V deficiency with a factor V inhibitor.

Factor V (FV) inhibitor arises rarely after using fresh frozen plasma (FFP) to treat inherited FV deficiency and is often a real therapeutic challenge. Here, we report a patient with a severe FV deficiency who developed such an inhibitor and was then treated with recombinant activated FVII (rFVIIa) and platelet concentrates (PC). Monitoring was assessed by thrombin generation assay (TGA). PC were more effective than rFVIIa in treating bleeding, but there was no correlation between the TGA results and clinical efficacy.