Persistently raised haematocrit M >0·52, F >0·48
Clinical history/examination/1st line investigaions includes EPO
May identify Clear secondary cause - if not then check JAK2 V617F mutational analysis (PB) - if positive then diagnose PV
- significant, JAK2-unmutated erythrocytosis.
- consider red cell mass to confirm (if Hct<0·6/0·56)
- consider USS abdomen
Is there a likely secondary cause from clinical history, stage 1/2 investigations, USS abdomen
statify by serum erythropoietin
- if serum erythropoetin is normal or low then JAK2 exon 12 mutation analysis; consider bone marrow biopsy
Stage 1 Investigations
Full blood count/blood film, Renal and liver function, Arterial oxygen saturation (SaO2)/carboxyhaemoglobin, Serum ferritin, Serum erythropoietin, JAK2 V617F mutational analysis
- Full blood count/blood film
- full blood count analysis will not only confirm a raised Hct but will also identify neutrophilia and thrombocytosis - are common in JAK2 V617F-positive PV and part of
the criteria for JAK2-negative PV- smokers have a significantly higher neutrophil count than non-smokers - neutrophilia is defined as>12.5x 10^9/l in this patient group
- blood film
- if confirmed PV, abnormalities, such as circulating blasts, leucoerythroblastic features and monocytosis, would be indications for bone marrow assessment
- renal, liver function, bone profile
- various renal and hepatic diseases can cause erythrocytosis
- serum calcium levels should also be determined to exclude a parathyroid adenoma/carcinoma - rare causes of secondary erythrocytosis
Erythropoetin
- high EPO levels
- may occur in hypoxic conditions or when erythrocytosis is secondary to exogenous administration or endogenous overproduction
- EPO levels are typically low in PV
Serum ferritin
- low serum ferritin levels are common in PV patients and iron deficiency can mask the presentation of PV > giving a misleadingly low Hct because iron deficiency limits erythropoiesis and hypochromic microcytosis develops.
JAK2 V617F mutational analysis
- identification of JAK2 mutations in almost all PV patients has revolutionised the diagnosis of PV. The JAK2 V617F mutation can be found in over 95% of PV patients and an exon 12 mutation in most remaining patients
- testing for JAK2 V617F in peripheral blood is sensitive and bone marrow samples are not required to identify this
- testing for JAK2 V617F is advised as a stage 1 investigation and should confirm the diagnosis the vast majority of PV patients.
2) Further investigations in JAK2 V617F-negative erythrocytosis
Further investigations are warranted in those patients with a persistent, significant erythrocytosis if JAK2 V617F studies are negative and a secondary cause is not immediately apparent. Secondary causes must be considered because PV is rare in the absence of a JAK2 V617F mutation
Red cell mass studies
- patients with Hct >0.60 (males) or >0.56 (females) can be assumed to have an absolute erythrocytosis, but in others RCM studies can be helpful to confirm an absolute erythrocytosis
- an RCM more than 25% above the mean predicted value is diagnostic of an absolute erythrocytosis
Those with a raised Hct but an RCM within the normal range have an apparent erythrocytosis.
- a relative erythrocytosis, found in states of dehydration, can be confirmed when the RCM is within the normal range and plasma volume is below normal
- patients with a relative or apparent erythrocytosis require no further investigation
Abdominal ultrasound
- radiological splenomegaly is a minor criterion for JAK2 V617F-negative PV and ultrasound is the simplest method for detection
- can also exclude secondary causes of erythrocytosis, particularly renal and hepatic pathology, including hepatocellular carcinoma
Further testing can be stratified according to the EPO level measured during stage 1 investigations
Normal or low EPO level
JAK2 exon 12 analysis
- compared with JAK2 V617F, patients with exon 12 mutated- PV tend to be
- younger,
- with higher haemoglobin concentrations,
- lower white blood cell (WBC) and platelet counts, and
- an isolated increase in erythropoiesis without granulocytic or megakaryocytic morphological abnormalities
In contrast to JAK2 V617F testing, a discrepancy between exon 12 mutant allele burden in bone marrow and peripheral blood has occasionally been described.
High EPO level
A raised EPO level should lead to a thorough search for secondary causes of erythrocytosis, which may require additional supplementary investigations.
- CT head and neck
-Cerebellar haemangioblastoma
-Meningioma
-Parathyroid carcinoma/adenoma
- consider further investigaion for secondary cause if clinically suspected
-referral to respiratory/renal, sleep studies
Reference:
McMullin MF et al. Guidelines for the diagnosis, investigation and management of polycythaemia/erythrocytosis. Br J Haematol. 2005 Jul;130(2):174-95
McMullin MF et al. A guideline for the diagnosis and management of polycythaemia vera. A British Society for Haematology Guideline.British Journal of Haematology, 2019, 184, 176-191