Pre-analytical variables in haemostasis: Findings from the United Kingdom National External Quality Assessment scheme for Blood Coagulation (UK NEQAS BC) haemolysis exercise.

INTRODUCTION: Haemolysis is considered one of the major contributors of nonconformities and sample rejection in coagulation testing. MATERIALS AND METHODS: Two lyophilized plasmas were distributed to 800 centres registered for prothrombin time (PT), activated partial thromboplastin time (APTT) and either Clauss fibrinogen or thrombin time (TT) in the UK NEQAS BC programme. The same pool of normal plasma was used to prepare both samples, to one of which red blood cell haemolysate was added to mimic haemolysis at 3 g/L haemoglobin concentration. Participants were asked to complete a questionnaire about their laboratory approach to dealing with haemolysed samples, including strategies used to deal with different levels of haemolysis. RESULTS: Results for tests performed did not show great differences between the two samples. It should be noted that artificially constructed haemolysed samples may not behave in the same way as patient samples (ie, may not be commutable). However, the possibility of carrying out a large multicentre study for detection of haemolysis was demonstrated. Inconsistency in practice was observed with 226/551 (41%) of centres indicated they reject haemolysed samples solely on visual checks, and 163 (30%) using initial visual checks with further sample rejection evaluation by analyser flags. Furthermore, 333 (72%) of centres indicated that the level of haemolysis affects sample rejection decisions, while 132 (28%) stated it did not. CONCLUSION: Variability of responses for dealing with haemolysed samples reflects a lack of clear consistency in the pre-analytical area of sample processing.

GATA-1: A potential novel biomarker for the differentiation of essential thrombocythemia and myelofibrosis.

Essentials The BCR-ABL negative myeloproliferative neoplasms are subjected to unknown phenotypic modifiers. GATA-1 is upregulated in ET patients, regardless of treatment regimen or mutational status. Myelofibrosis (MF) megakaryocytes displayed decreased GATA-1 staining. GATA-1 may have utility as a diagnostic marker in ET and in its differential diagnosis from MF. ABSTRACT: Background The BCR-ABL-negative myeloproliferative neoplasms, i.e., polycythemia vera, essential thrombocythemia (ET), and myelofibrosis (MF), are characterized by mutations in JAK2, CALR, or MPL. However, an as yet unknown factor drives the precise disease phenotype. The hematopoietic transcription factor GATA-1 and its downstream targets NFE2 and FLI1 are responsible for determining erythroid and megakaryocyte lineages during hematopoietic stem cell differentiation. Previous studies have demonstrated a low level of GATA-1 expression in megakaryocytes from patients with MF. Objectives and methods The expression of GATA-1, NFE2 and FLI1 was studied for changes in the peripheral blood (PB) of ET patients. Peripheral blood samples were obtained from 36 ET patients, 14 MF patients, and seven healthy control donors. Total RNA from PB mononuclear cells (PBMCs) was extracted, and quantitative polymerase chain reaction was used to determine relative changes in gene expression. Protein levels of GATA-1 were also determined in bone marrow sections from ET and MF patients. Results GATA-1 mRNA was upregulated in ET patients, regardless of treatment regimen or mutational status. FLI1 expression was significantly downregulated, whereas NFE2 expression was unaffected by changes in GATA-1 mRNA levels. Megakaryocytes from ET patients showed increased protein levels of GATA-1 as compared with those from MF patients. Conclusions Our results confirmed, in PB, our previous data demonstrating elevated levels of GATA-1 mRNA in total bone marrow of ET patients. GATA-1 mRNA levels are independent of cytoreductive therapies, and may have utility as a diagnostic marker in ET and in its differential diagnosis from MF.