polycythemia vera aswad h. al.obeidy ficms, ficms ge&hep kirkuk general hospital
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Polycythemia Vera
Aswad H. Al.Obeidy
FICMS, FICMS GE&Hep
Kirkuk General Hospital
Polycythemia Vera The World Health Organization (WHO)
classification of the chronic myeloproliferative diseases includes seven disorders
Chronic myelogenous leukemia, [Ph chromosome t(9;22)(q34;11), BCR/ABL-positive]
Chronic neutrophilic leukemia Chronic eosinophilic leukemia (and the
hypereosinophilic syndrome) Polycythemia vera Chronic idiopathic myelofibrosis (with
extramedullary hematopoiesis) Essential thrombocythemia Chronic myeloproliferative disease,
unclassifiable
Polycythemia Vera Polycythemia vera (PV) is a clonal disorder
involving a multipotent hematopoietic progenitor cell in which phenotypically normal red cells, granulocytes, and platelets accumulate in the absence of a recognizable physiologic stimulus
The most common of the chronic myeloproliferative disorders, PV occurs in 2 per 100,000 persons, sparing no adult age group and increasing with age to rates as high as 18/100,000
Familial transmission occurs but is infrequent A slight overall male predominance has been
observed, but women predominate within the reproductive age range
Etiology The etiology of PV is unknown. Although nonrandom
chromosome abnormalities such as 20q, trisomy 8, and especially 9p, have been documented in up to 30% of untreated PV patients, unlike CML no consistent cytogenetic abnormality has been associated with the disorder
However, a mutation in the autoinhibitory, pseudokinase domain of the tyrosine kinase JAK2—which replaces valine with phenylalanine (V617F), causing constitutive activation of the kinase—appears to have a central role in the pathogenesis of PV
JAK2 V617F is the basis for many of the phenotypic and biochemical characteristics of PV, such as elevation of the leukocyte alkaline phosphatase (LAP) score and increased expression of the mRNA of PVR-1, a glycosylphosphatidylinositol (GPI)-linked membrane protein
Etiology however, JAK2 V617F cannot solely account for the
entire PV phenotype. First, PV patients with the same phenotype and
documented clonal disease lack this mutation. Second, IMF patients have the same mutation but a
different clinical phenotype. Third, familial PV can occur without the mutation, even
when other members of the same family express it. Fourth, not all the cells of the malignant clone express
JAK2 V617F. Fifth, JAK2 V617F has been observed in patients with
long-standing idiopathic erythrocytosis.
Clinical Features Although splenomegaly may be the initial presenting sign in PV, most
often the disorder is first recognized by the incidental discovery of a high hemoglobin or hematocrit
With the exception of aquagenic pruritus, no symptoms distinguish PV from other causes of erythrocytosis
Uncontrolled erythrocytosis causes hyperviscosity, leading to neurologic symptoms such as vertigo, tinnitus, headache, visual disturbances, and transient ischemic attacks (TIAs)
Systolic hypertension is also a feature of the red cell mass elevation In some patients, venous or arterial thrombosis may be the presenting
manifestation of PV. Any vessel can be affected, but cerebral, cardiac, or mesenteric vessels are most commonly involved. Intraabdominal venous thrombosis is particularly common in young women and may be catastrophic if a sudden and complete obstruction of the hepatic vein occurs. Indeed, PV should be suspected in any patient who develops hepatic vein thrombosis
Digital ischemia, easy bruising, epistaxis, acid-peptic disease, or gastrointestinal hemorrhage may occur due to vascular stasis or thrombocytosis
Erythema, burning, and pain in the extremities, a symptom complex known as erythromelalgia, is another complication of the thrombocytosis of PV
Given the large turnover of hematopoietic cells, hyperuricemia with secondary gout, uric acid stones, and symptoms due to hypermetabolism
Diagnosis When PV presents with erythrocytosis in combination with leukocytosis, thrombocytosis, or both, the
diagnosis is apparent However, when patients present with an elevated hemoglobin or hematocrit alone, or with thrombocytosis
alone, the diagnostic evaluation is more complex because of the many diagnostic possibilities Relative erythrocytosis: Hemoconcentration secondary to dehydration, androgens, or tobacco abuse
Absolute erythrocytosis Hypoxia Carbon monoxide intoxication High affinity hemoglobin High altitude Pulmonary disease Right-to-left shunts Sleep-apnea syndrome Neurologic disease Renal disease Renal artery stenosis Focal sclerosing or membranous glomerulonephritis Renal transplantation Tumors Hypernephroma Hepatoma Cerebellar hemangioblastoma Uterine fibromyoma Adrenal tumors Meningioma Pheochromocytoma Drugs Androgens Recombinant erythropoietin Familial (with normal hemoglobin function, Chuvash, erythropoietin receptor mutations) Polycythemia vera
Diagnosis Once absolute erythrocytosis has been established, its cause must be
determined An elevated plasma erythropoietin level suggests either a hypoxic cause
for erythrocytosis or autonomous erythropoietin production, in which case assessment of pulmonary function and an abdominal CT scan to evaluate renal and hepatic anatomy are appropriate
A normal erythropoietin level does not exclude a hypoxic cause for erythrocytosis
In PV, in contrast to hypoxic erythrocytosis, the arterial oxygen saturation is normal. However, a normal oxygen saturation does not exclude a high-affinity hemoglobin as a cause for erythrocytosis; documentation of previous hemoglobin levels and a family study are important
Other laboratory studies that may aid in diagnosis include the red cell count, mean corpuscular volume, and red cell distribution width (RDW)
Only three situations cause microcytic erythrocytosis: -thalassemia trait, hypoxic erythrocytosis, and PV
With -thalassemia trait the RDW is normal, whereas with hypoxic erythrocytosis and PV, the RDW is usually elevated due to iron deficiency
In many patients, the LAP level is also increased, as is the uric acid level. Elevated serum vitamin B12 or B12-binding capacity may be present
In patients with associated acid-peptic disease, occult gastrointestinal bleeding may lead to presentation with hypochromic, microcytic anemia
Unless there is a need to establish the presence of myelofibrosis or exclude some other disorder, bone marrow aspiration need not be done
Complications The major clinical complications of PV relate directly to the
increase in blood viscosity associated with red cell mass elevation and indirectly to the increased turnover of red cells, leukocytes, and platelets with the attendant increase in uric acid and cytokine production
A sudden massive increase in spleen size can be associated with splenic infarction or progressive cachexia
Myelofibrosis appears to be part of the natural history of the disease but is a reactive, reversible process that does not itself impede hematopoiesis and by itself has no prognostic significance
The organomegaly can cause significant mechanical discomfort, portal hypertension, and cachexia
Although the incidence of acute nonlymphocytic leukemia is increased in PV, the incidence of acute leukemia in patients not exposed to chemotherapy or radiation is low
Erythromelalgia is a curious syndrome of unknown etiology associated with thrombocytosis, and is usually responsive to salicylates
Some of the central nervous system symptoms observed in patients with PV, such as ocular migraine, may represent a variant of erythromelalgia
If left uncontrolled, erythrocytosis can lead to thrombosis involving vital organs such as the liver, heart, brain, or lungs
Treatment PV is generally an indolent disorder whose clinical course is measured in decades Periodic phlebotomies thereafter serve to maintain the red cell mass within the
normal range and to induce a state of iron deficiency, which prevents an accelerated reexpansion of the red cell mass. In most PV patients, once an iron-deficient state is achieved, phlebotomy is usually only required at 3-month intervals
The use of salicylates as a tonic against thrombosis in PV patients is potentially harmful if the red cell mass is not controlled by phlebotomy
Anticoagulants are only indicated when a thrombosis has occurred Asymptomatic hyperuricemia (<10 mg%) requires no therapy, but allopurinol should
be administered to avoid further elevation of the uric acid when chemotherapy is employed to reduce splenomegaly or leukocytosis or to treat pruritus
Generalized pruritus intractable to antihistamines or antidepressants such as doxepin can be a major problem in PV; hydroxyurea, interferon (IFN- ), and psoralens with ultraviolet light in the A range (PUVA) therapy are other methods of palliation
IFN- reduces JAK2 V617F expression in PV patients, and its role in this disorder may be expanding
Anagrelide, a phosphodiesterase inhibitor, can reduce the platelet count and, if tolerated, is preferable to hydroxyurea because it lacks marrow toxicity
Alkylating agents and radioactive sodium phosphate (32P) are leukemogenic in PV, and their use should be avoided
In some patients, massive splenomegaly unresponsive to reduction by hydroxyurea or IFN- therapy and associated with intractable weight loss will require splenectomy
Allogeneic bone marrow transplantation may be curative in young patients Most patients with PV can live long lives without functional impairment when their
red cell mass is effectively managed with phlebotomy. Chemotherapy is never indicated to control the red cell mass unless venous access is inadequate