Haem: Myeloproliferative Disorders

Question 1

What controls haemopoisesis?

Answer 1

Growth factors (e.g. EPO)

Receptors (mainly tyrosine kinases)

Question 2

What are Janus Kinases?

Answer 2

A family of four tyrosine kinase receptors assocaited with haemopoietic cell growth factor receptos

Question 3

Describe what happens when growth factors bind to Janus Kinase receptors.

Answer 3

• Binding of the growth factors leads to activation of JAK, which activates the STAT pathway
• STAT is a transcription factor that moves to the nucleus and promotes the transcription of genes associated with cell growth and proliferation

Question 4

What is a chronic myeloproliferative disorder?

Answer 4

• A group of clonal disorders of haemopoietic stem cells characterised by the overproduction of one or more mature myeloid cellular elements in the blood
• There is a trend towards increased fibrosis in the bone marrow
• Some cases will develop into acute leukaemia

Question 5

Outline the usual presentation of myeloproliferative disorders.

Answer 5

• Preponderance to thrombosis
• Splenomegaly
• Haemorrhage

Question 6

List some chronic myeloproliferative disorders.

Answer 6

• Polycythaemia vera
• Essential thrombocythaemia
• Idiopathic myelofibrosis
• Idiopathic erythrocytosis
• Chronic granulocytic leukaemia

Question 7

What are the key differences between:

1. Myeloproliferative disorder
2. Leukaemia
3. Myelodysplastic syndrome

Answer 7

1. Myeloproliferative disorder = proliferation with full differentiation
2. Leukaemia = proliferation with little/no differentiation
3. Myelodysplastic syndrome = abnormal proliferation and abnormal differentiation

Question 8

What is polycythaemia vera?

Answer 8

• A myeloproliferative disorder characterised by increased production of red cells (independent of normal control mechanisms) with a compensatory increase in plasma volume
• Often accompanied by a degree of increased platelets and granulocytic cells

Question 9

Describe the clinical presentation of polycythaemia vera.

Answer 9

• Incidental finding
• Symptoms of hyperviscosity (headaches, visual disturbances, fatigue, dyspnoea)
• Increased histamine release (Aquagenic pruritus, peptic ulceration)
• Splenomegaly
• Plethora
• Erythromelalgia (red painful extremities)
• Thrombosis
• Retinal vein engorgement
• Gout

Question 10

Outline the typical investigation findings in polycythaemia vera.

Answer 10

• High haemoglobin, Hct, MCV, plasma volume and platelets
• NO circulating immature cells

Question 11

Describe the appearance of a bone marrow biopsy in polycythaemia vera.

Answer 11

• Increased cellularity (mainly erythroid cells)
• Slight reticulin fibrosis and megakaryocyte abnormalities

Question 12

What investigation finding is considered diagnostic of polycythaemia vera?

Answer 12

Presence of JAK 2 V617F mutation

Question 13

How is red cell mass and plasma volume measured?

Answer 13

• Isotope dilution
• Red cells are incubated with radioactive chromium
• Plasma is incubated with radioactive iodine

Question 14

What is pseudopolycythaemia?

Answer 14

Reduced plasma volume in the present of a normal amount of haemoglobin results in an apparently raised Hb

Question 15

On which exon is the JAK2 V617F mutation found?

Answer 15

Exon 14

Question 16

Which other JAK mutation is a significant finding and which condition is it associated with?

Answer 16

Exon 12 mutation

It is associated with idiopathic erythrocytosis

Question 17

What are some causes of JAk 2 V617F negative polycythaemia?

Answer 17

• Pseudopolycythaemia
• True polycythaemia that is secondary to increased EPO (e.g. hypoxia, renal disease, tumours)

Question 18

Outline the principles of treatment of polycythaemia vera.

Answer 18

Reduce viscosity and keep Hct <45%

• Venesection
• Hydroxycarbamide

Aim to reduce risk of thrombosis

• Aspirin
• Keep platelets <400x10⁹/L (same as ET treatment)

Question 19

What is idiopathic erythrocytosis?

Answer 19

• Isolated erythrocytosis with low EPO
• Treated with venesection only
• NO JAK 2 V617F mutation, but some cases will have an exon 12 mutation

Question 20

Outline the prognosis of idiopathic erythrocytosis and polycythaemia vera.

Answer 20

• Idiopathic erythrocytosis - no adverse prognosis if Hct is maintained
• Polycythaemia vera - most survive 10 years, causes of death include thrombosis, leukaemia and myelofibrosis

Question 21

What is essential thrombocythaemia?

Answer 21

Myeloproliferative disorder mainly involving the megakaryocyte lineage (platelet count > 600 x 10⁹/L)

Question 22

Describe the typical clinical presentation of essential thrombocythaemia.

Answer 22

• Incidental finding
• Thrombosis (e.g. CVA, DVT, gangrene)
• Bleeding
• Headaches, dizziness and visual disturbances

Question 23

What proportion of essential thrombocythaemia patients have JAK 2 mutations?

Answer 23

50%

Question 24

Outline the treatment options for essential thrombocythaemia.

Answer 24

• Aspirin
• Anagrelide (specific inhibitor of platelet formation - may accelerate myelofibrosis)
• Hydroxycarbamide (MAIN TREATMENT - may be leukaemogenic)
• Alpha-interferon (may be used in patients < 40 years)

Question 25

What factor is important in determining risk level in patients with essential thrombocythaemia?

Answer 25

Age (old age = higher risk)

Also platelet count and whether symptomatic or not

Question 26

Describe the prognosis of essential thrombocythaemia.

Answer 26

• Normal life span
• Leukaemic transformation in about 5% of patients after 10 years
• Myelofibrosis is uncommon

Question 27

Define chronic idiopathic myelofibrosis.

Answer 27

A clonal myeloproliferative disease with proliferation mainly of megakaryocytes and granulocytic cells, associated with reactive bone marrow fibrosis and extramedullary haemopoises

Question 28

Describe the typical clinical presentation of myelofibrosis.

Answer 28

• Incidental finding
• Cytopaenias
• Thrombocytosis
• Splenomegaly (can be MASSIVE)
• Hepatomegaly
• FLAWS
• Gout
• Budd Chiari

Question 29

Describe the two stages of myelofibrosis.

Answer 29

• Pre-fibrotic = blood changes are mild with hypercellular marrow
• Fibrotic = splenomegaly, blood changes, dry tap, prominent fibrosis and later osteosclerosis

Question 30

Describe the appearance of myelofibrosis on a blood film.

Answer 30

• Leukoerythroblastic picture
• Tear drop poikilocytes

Question 31

What are some features of the bone marrow in myelofibrosis?

Answer 31

• Dry tap
• Trephine biopsy will show increased reticulin or collagen fibrosis, prominent megakaryocyte hyperplasia and new bone formation

Question 32

Outline the treamtent options for myelofibrosis.

Answer 32

• Symptomatic treatment (e.g. transfusions for anaemia)
• Splenectomy
• Cytoreductive therapy (hydroxycarbamide and thalidomide)
• Bone marrow transplant (in younger patients)

Question 33

Describe the prognosis of myelofibrosis.

Answer 33

Median 3-5 year survival

Question 34

Describe the structure of janus kinases.

Answer 34

They have a kinase domain and a catalytically inactive pseudokinase domain with regulatory function

Question 35

What effect does the JAK 2 V617F mutation have on janus kinases?

Answer 35

It inactivates the pseudokinase domain thereby removing inhibition of activation so it becomes constitutively activated.

Question 36

Which mutations, other than JAK 2 V617F, have been associated with myeloproliferative diseases?

Answer 36

• Exon 12 mutation of the JAK2 gene
• Mutations in thrombopoietin receptors

NOTE: many patients have NO known mutations

Question 37

Describe the use of bone marrow examination in:

1. Polycythaemia vera
2. Essential thrombocythaemia
3. Myelofibrosis

Answer 37

1. Polycythaemia vera - not needed in PV with JAK 2 mutations
2. Essential thrombocythaemia - may be helpful if JAK 2 negative
3. Myelofibrosis - always needed