CML and Myeloproliferative Disorders

Question 1

What is polycythaemia?

Answer 1

Raised Hb conc. + Haematocrit %

Question 2

What are causes of polycythaemia?

Answer 2

Relative: Lack of plasma = Non-malignant (Pseudo)

True: Excess erythrocytes

Primary: Myeloproliferative neoplasm

Secondary: Non-malignant

Question 3

What are the classes of myeloproliferative neoplasms? Give examples of each

Answer 3

Ph (Philadelphia Chr) -ve:

• Polycythaemia vera (PV) (erythroid)
• Essential Thrombocythaemia (ET) (megakaryocytic)
• Primary Myelofibrosis (PMF)

Ph +ve:

• Chronic myeloid leukaemia (CML)

Question 4

What are dilution studies used for?

Answer 4

To differentiate between true + relative polycythaemia

Red Cell Mass: 51 Cr labelled RBC

Plasma Vol: 131 I labelled albumin

Question 5

What are 3 causes of relative/pseudo-polycythaemia?

Answer 5

Alcohol

Obesity

Diuretics

Question 6

What happens to EPO in primary and secondary true polycythaemia?

Answer 6

Primary: Reduced

Secondary: Elevated

Question 7

What are 4 appropriate causes of elevated EPO?

Answer 7

High altitude

Hypoxic lung disease

Cyanotic heart disease

High affinity haemoglobin

Question 8

What is the mechanism behind appropriate raise in EPO?

Answer 8

Low O2 tension detected by kidneys

Stimulates raise in EPO

Increases Hb production

Question 9

How do lung, heart and high affinity haemoglobin cause appropriate increase in EPO?

Answer 9

Hypoxic lung disease: Less gas exchange, less O2 reaches kidneys

Cyanotic heart: Sending deoxygenated blood to kidneys

High affinity Hb e.g. Sickling thalassemia- fail to release O2 from Hb at lower O2 tensions, starve tissue of O2

Question 10

What are 3 inappropriate causes of elevated EPO?

Answer 10

Renal disease (cysts, tumours, inflammation)

Uterine myoma

Other tumours (liver, lung)

Question 11

What are examples of lymphoid haematological malignancies?

Answer 11

Precursor cell malignancy: ALL (B + T)

Mature cell malignancy: CLL, Multiple myeloma, Lymphoma (Hodgkin + Non Hodgkin)

Question 12

What are 3 types of myeloid haematological malignancies?

Answer 12

Acute myeloid leukaemia (blasts >20%)

Myelodysplasia (blasts 5-19%)

Myeloproliferative disorders: ET, PV, PMF, CML

Question 13

Which 3 processes in blood cancers are disrupted by mutation?

Answer 13

Cellular proliferation (type 1)

Impair/ block cellular differentiation (type 2)

Prolong cell survival (anti-apoptosis)

Question 14

What is the normal function of tyrosine kinases?

Answer 14

Transmit cell growth signals from surface receptors to nucleus.

Activated by transferring phosphate groups to self + downstream proteins.

Normally held tightly in inactive state.

Promote cell growth, do not block maturation.

Question 15

What happens when mutations cause activation of tyrosine kinase?

Answer 15

Expansion increase in mature/ end cells

Red cells: Polycythaemia

Platelets: Essential thrombocythaemia

Granulocytes: Chronic myeloid leukaemia

Question 16

What occurs when EPO receptor binds erythropoietin?

Answer 16

Changes configuration of TK receptor

Phosphorylates JANUS Kinase 2 - ACTIVE

Able to pass phosphate groups to downstream signalling molecules which take the signal from the bound receptor to the nucleus to drive proliferation

Question 17

Which genes are associated with myeloproliferative neoplasms?

Answer 17

JAK2 (100% of PV, 60% of ET + PMF)

Calreticulin

MPL

Question 18

How is the diagnosis of myeloproliferative disorder (Ph negative) made?

Answer 18

Clinical features: Sx + Splenomegaly

FBC +/- BM biopsy

Erythropoietin level (EPO)

Mutation testing: Phenotype linked to acquired mutation

Question 19

What is the epidemiology of polycythaemia vera?

Answer 19

Annually: 2-3/100,000

M > F = 1.2 : 1

Mean age dx: 60y

5% < 40y

Question 20

How does PV present clinically? How is it diagnosed?

Answer 20

Incidental dx routine FBC (median Hb 184g/l, Hct 0.55).

Sx of increased hyper viscosity

Sx due to increased histamine release

Test for JAK2 V617F mutation

Question 21

List 6 symptoms caused by blood hyper viscosity in PV

Answer 21

Headaches

Light-headedness

Stroke

Visual disturbances

Fatigue

Dyspnoea

Question 22

Give 2 symptoms caused by increased histamine release in PV

Answer 22

Aquagenic pruritis

Peptic ulceration

Question 23

How is PV treated?

Answer 23

Aim to reduce HCT: Target HCT <45%

Aim to reduce risks of thrombosis

Question 24

Give 2 ways in which HCT can be reduced in PV?

Answer 24

Venesection

Cytoreductive therapy hydroxycarbamide

Question 25

How do we reduce the risk of thrombosis in PV?

Answer 25

Control HCT

Aspirin

Keep platelets < 400x10^9/l

Question 26

What is essential thrombocythaemia?

Answer 26

Chronic MPN mainly involving megakaryocytic lineage.

Sustained thrombocytosis >600x10^9 /L.

Incidence: 1.5 per 100000.

2 peaks: 55y + minor peak 30y

F : M = Equal 1st peak but F predominate 2nd peak.

Question 27

What is the presentation of essential thrombocythaemia?

Answer 27

Incidental finding on FBC (50% cases).

Thrombosis: Arterial: CVA, gangrene, TIA OR venous: DVT or PE.

Bleeding: Mucous membrane + cutaneous.

Headaches, dizziness, visual disturbances.

Splenomegaly (modest).

Question 28

What is the treatment of essential thrombocythaemia?

Answer 28

Aspirin: To prevent thrombosis.

Hydroxycarbamide: Antimetabolite. Reduces platelet count, suppression of other cells as well.

Anagrelide: Specific inhibition of platelet formation, SE: palpitations + flushing.

Question 29

What is the prognosis of essential thrombocythaemia?

Answer 29

Normal life span, may not be changed in many

Leukaemic transformation in ~5% after >10 years.

Myelofibrosis also uncommon, unless there is fibrosis at the beginning.

Question 30

What is primary myelofibrosis?

Answer 30

Clonal myeloproliferative disease associated with reactive BM fibrosis.

Extramedullary haematopoieisis.

Incidence 0.5-1.5 /100,000

M = F

7 th decade: Less common in young

Other MPDs (ET + PV) may transform to PMF

Question 31

What is the clinical presentation of primary myelofibrosis? How is it diagnosed?

Answer 31

Incidental in 30%

Presentations related to:

Cytopenias: Anaemia/ thrombocytopenia

Thrombocytosis

Splenomegaly: May be massive.

Hepatomegaly +/- Budd-Chiari syndrome

Sx of Hypermetabolic state

Question 32

What symptoms may be seen due to hyper metabolic state in PMF?

Answer 32

Weight loss

Fatigue

Dyspnoea

Night sweats

Hyperuricaemia

Question 33

What are findings of primary myelofibrosis on a blood film?

Answer 33

Leucoerythroblastic picture

Tear drop poikilocytes

Giant platelets

Circulating megakaryocytes

Question 34

What are findings of primary myelofibrosis in the bone marrow?

Answer 34

‘Dry tap’

Trephine:

• Increased reticulin or collagen fibrosis
• Prominent megakaryocyte hyperplasia + clustering with abnormalities
• New bone formation

Question 35

What are additional findings of primary myelofibrosis?

Answer 35

Liver + spleen: Extramedullary haemopoiesis

DNA: JAK2 or CALR mutation

Question 36

What is the prognosis of primary myelofibrosis?

Answer 36

Median 3-5 years but very variable

Question 37

What are bad prognostic signs of primary myelofibrosis?

Answer 37

Severe anaemia <100g/L

Thrombocytopenia <100x109 /l

Massive splenomegaly

Question 38

Which prognostic scoring system can be used for primary myelofibrosis?

Answer 38

Prognostic scoring system (DIPPS):

Score 0: Median survival 15 years

Score 4-6: Median survival 1.3 years

Question 39

What is the limited range of treatment options for primary myelofibrosis?

Answer 39

Supportive: RBC + platelet transfusion often ineffective because of hypersplenism

Cytoreductive therapy: Hydroxycarbamide (for thrombocytosis (suppresses clones), may worsen anaemia).

Ruxolotinib: JAK2 inhibitor (high prognostic score cases)

Allogeneic SCT: Potentially curative reserved for high risk eligible cases.

Splenectomy for symptomatic relief: Hazardous + often followed by worsening of condition.

Question 40

What is CML?

Answer 40

Ph +ve myeloproliferative neoplasia.

Incidence 1-2/100,000

M > F = 1.4 : 1

40-60y

RF= Radiation exposure

Question 41

What are clinical signs of CML?

Answer 41

Lethargy/ Hypermetabolism/ Thrombotic event: Monocular blindness, CVA, bruising, bleeding.

Massive splenomegaly +/- hepatomegaly

Question 42

What can be seen in terms of bloods for CML?

Answer 42

FBC: Hb + platelets well preserved or raised

Massive leucocytosis 50-200x109 /L

Blood film: Neutrophils + myelocytes (not blasts if chronic phase)

• Basophilia

Question 43

What are laboratory findings for CML?

Answer 43

Leucocytosis: 50 – 500x10^9 /l

Mature myeloid cells

Biphasic peak: Neutrophils + myelocytes

Basophils

No excess (<5%) myeloblasts

Platelet count raised/ upper normal (contrast acute leuk)

Question 44

Which translocation produces the Ph chromosome?

Answer 44

t(9;22)

BCR-ABL

Question 45

How does BCR-ABL contribute to myeloproliferative neoplasms?

Answer 45

Expresses a fusion oncoprotein with constitutive tyrosine kinase activity.

Drives myeloid proliferation.

Question 46

Which available diagnostic techniques can be used to identify the translocation/fusion?

Answer 46

Conventional Karyotyping

FISH metaphase or interphase karyotyping

RT-PCR amplification + detection

Question 47

How are myeloproliferative diseases and their responses monitored?

Answer 47

FBC + measure leucocyte count.

Cytogenetics + detection of Philadelphia chr.

RT-PCR of BCR-ABL fusion transcript which can be quantified by RQ-PCR to determine response to therapy.

Question 48

What was the clinical course of CML before Imatinib?

Answer 48

Chronic phase: Median 3-4 years duration

Accelerated phase (10-19% blasts): Median duration 6–12 months

Blast crisis (>20% blasts): Median survival 3–6 months

Question 49

What is the treatment of CML in the chronic phase?

Answer 49

1. Tyrosine kinase Inhibitor (TKI): Imatinib (1Gen,) Dasatanib, Nilotonib (2G), Bosutinib (3G)

2. Failure (1) > Switch to 2Gen or 3G TKI:

No complete cytogenetic response at 1y or Respond but acquire resistance

3. Failure (2) > Consider allogeneic SCT

Inadequate response or intolerant of 2G TKIs

or Progression to accelerated or blast phase

Question 50

How do myeloproliferative neoplasms and acute leukaemia differ with respect to differentiation?

Answer 50

M: no impairment of differentiation, excess proliferation

AL: mutations block differentiation, excess proliferation

Question 51

What are the mutation mechanisms in blood cancer?

Answer 51

DNA point mutations

Chromosomal translocations: Creation of novel fusion gene/ Disruption of proto-oncogene

Question 52

What is monitored throughout treatment of CML?

Answer 52

FBC

Cytogenetics

RQ-PCR

CCyR at 1y (Complete cytogenetic response = 0% Ph +ve metaphases)

Question 53

What is the prognosis for CML?

Answer 53

97% FFP at 6y (freedom from progression)

95% 5y survival

2% Annual mortality

Question 54

What are the disadvantages of TKIs?

Answer 54

Failure to achieve CCyR

Non-compliance

SE: Fluid retention, pleural effusions

Loss of major molecular response (MMR): Acquiring ABL point mutations leading to resistance, evolution to blast crisis