A multi-laboratory assessment of congenital thrombophilia assays performed on the ACL TOP 50 family for harmonisation of thrombophilia testing in a large laboratory network.

Objectives: Thrombophilia testing is commonly performed within hemostasis laboratories, and the ACL TOP 50 family of instruments represent a new 'single platform' of hemostasis instrumentation. The study objective was to evaluate these instruments and manufacturer reagents for utility of congenital thrombophilia assays.

Methods: Comparative evaluations of various congenital thrombophilia assays (protein C [PC], protein S [PS], antithrombin [AT], activated protein C resistance [APCR]) using newly installed ACL TOPs 550 and 750 as well as comparative assessments with existing, predominantly STAGO, instrumentation and reagents.

Verification of the ACL Top 50 Family (350, 550, and 750) for Harmonization of Routine Coagulation Assays in a Large Network of 60 Laboratories.

Objectives: To verify a single platform of hemostasis instrumentation, the ACL TOP 50 Family, comprising 350, 550, and 750 instruments, across a large network of 60 laboratories.

Methods: Comparative evaluations of instrument classes (350 vs 550 and 750) were performed using a large battery of test samples for routine coagulation tests, comprising prothrombin time/international normalized ratio, activated partial thromboplastin time (APTT), thrombin time, fibrinogen and D-dimer, and using HemosIL reagents. Comparisons were also made against existing equipment (Diagnostica Stago Satellite, Compact, and STA-R Evolution) and existing reagents to satisfy national accreditation standards.

Effects of FEIBA on platelet and leucocyte activation in severe haemophilia patients with inhibitors.

Factor eight inhibitory bypassing agent (FEIBA) is used as a therapeutic option in haemophilia patients who have developed inhibitors. The measurement of thrombin generation has been applied to monitor the efficacy of FEIBA. However, a major concern about the clinical use of FEIBA is whether or not an increase in thrombin activity causes subsequent platelet activation and risk of thrombosis.

Evaluating laboratory approaches to the identification of lupus anticoagulants: a diagnostic challenge from the RCPA Haematology QAP.

Background: Laboratory identification of lupus anticoagulants (LA), an important component of the clinical diagnosis of the autoimmune disorder antiphospholipid syndrome (APS), is challenged by the heterogeneity of tests available, the diagnostic and laboratory approach undertaken, and the heterogeneity of the autoantibodies present.

Aim: : To assess the laboratory approach for investigation of LA, as well as the utility of various tests and test approaches, given a difficult clinical scenario in which LA might or might not be present.

Methods: Ninety-three participants in the Royal College of Pathologists of Australasia (RCPA) Haematology Quality Assurance Program (QAP) were sent 4  mL of a complex but strongly positive LA sample blinded to the nature of the abnormality.

Time to think outside the box? Proposals for a new approach to future pharmacokinetic studies of von Willebrand factor concentrates in people with von Willebrand disease.

Plasma-derived factor concentrates are important in the management of von Willebrand disease (VWD). We review the current literature regarding pharmacokinetic studies of von Willebrand factor (VWF) concentrates used to treat VWD. Using additional local experience of a crossover pharmacokinetic (PK) study comparing a currently licensed double virally inactivated concentrate, Biostate, with that of its single virally inactivated predecessor, AHF (High Purity), we propose that consideration now be given to the use of new and novel test parameters for future PK studies.

Comparison of the pharmacokinetics of two von Willebrand factor concentrates [Biostate and AHF (High Purity)] in people with von Willebrand disorder. A randomised cross-over, multi-centre study.

Plasma-derived factor concentrates are important in the management of von Willebrand disorder (VWD). In our geographic locality, a single viral inactivation step concentrate (AHF [High Purity]), has been replaced with one using a double viral inactivation step (Biostate). The aim of this study was to compare the pharmacokinetics of von Willebrand factor (VWF) and factor VIII (FVIII) after administration of AHF (High Purity) and Biostate.

Reducing errors in identification of von Willebrand disease: the experience of the royal college of pathologists of australasia quality assurance program.

Regular multilaboratory surveys of laboratories derived primarily from Australia, New Zealand, and Southeast Asia have been conducted during the last 8 years to evaluate testing proficiency in the diagnosis of von Willebrand disease (vWD). We summarize and update the findings of these surveys with a particular emphasis on diagnostic errors and error rates associated with particular tests or test panel limitations. A total of 43 plasma samples have been dispatched to survey participants.

Laboratory diagnosis of von Willebrand disorder: use of multiple functional assays reduces diagnostic error rates.

Regular multilaboratory surveys of laboratories primarily in Australia, New Zealand, and Southeast Asia have been conducted over the past 8 years to evaluate testing proficiency in the diagnosis of von Willebrand disorder (VWD). We have reassessed the findings of these surveys with a particular emphasis on the diagnostic errors and error rates associated with particular tests or test panel limitations. The 37 plasma samples dispatched to survey participants include 9 normal samples, 4 type 1 VWD samples, 8 type 2 VWD samples (2A x 3, 2B x 3, 2M x 1, and 2N x 1), and 4 type 3 VWD samples.

Factor V inhibitors: rare or not so uncommon? A multi-laboratory investigation.

Acquired deficiencies of, or inhibitors to, factor V are considered rare events. We report a series of 14 acquired factor V deficiencies, 10 of which were confirmed to have inhibitors to factor V, as identified within Australia in the past 5 years following a multi-laboratory investigation. The initial index case seen by one laboratory was followed within 4 months by a separate similar case.

Role of thrombospondin-1 in control of von Willebrand factor multimer size in mice.

Plasma von Willebrand factor (VWF) is a multimeric glycoprotein from endothelial cells and platelets that mediates adhesion of platelets to sites of vascular injury. In the shear force of flowing blood, however, only the very large VWF multimers are effective in capturing platelets. The multimeric size of VWF can be controlled by proteolysis at the Tyr(842)-Met(843) peptide bond by ADAMTS13 or cleavage of the disulfide bonds that hold VWF multimers together by thrombospondin-1 (TSP-1).