Haematology 1 - Acute leukaemia

Question 1

Which cells are affected in the different leukaemias?

Answer 1

AML- can affect ay of the cells in the myeloid lineage

CML- affects pluripotent haemoatopoietic stem cell

• In chronic phase, it is characterised by overproduction of myelocytes
• In acute phase, they can undergo a lymphoblastic transformation (lymphoblastic crisis)

ALL- affects mature T cells or B cells

CLL- affects mature B cells (*T cell is uncommon)

Question 2

What is the median age of presentation of AML?

Answer 2

65-70

Question 3

what are the two types of mutation that result in AML?

Answer 3

Type 1: promotes proliferation and survival eg FLT3-ITD

Type 2: blocks differetiation (differentiation is good, and usually followed by apoptosis) eg PML-RARA

Question 4

Recall some genetic associations of AML

Answer 4

a) translocation: t(15;17) >>> PML-RARA fusion gene >>> APML

b) inversion of chromosome 16
c) trisomies/duplications

• Trisomy 21- Downs or Trisomy 8
  d) deletions
• 5q deletion
• 7q deletion

Question 5

Which chromosome abberation causes APML?

WHat are the type 1 and type 2 mutations that cause APML?

Answer 5

Type 1 mutation: FLT3-ITD

Type 2:

• t(15,17)
• Fusion of PML-RARA

Question 6

Which type of leukaemia is most likely to cause haemorrhage?

Answer 6

Acute Promyelocytic leukaemia (APML)

Question 7

Which type of leukaemia is most likely to cause DIC + hyperactive fibrinolysis

and what would you see in clotting studies

Answer 7

APML

• Prolonged PT
• Prolonged/short APTT
• Low fibrinogen

Question 8

What is the key triad of clinical features of AML + ALL

Answer 8

Anaemia
Thrombocytopaenia
Neutropaenia - although high WCC on FBC due to increase of blast cells

Question 9

How can myeloid lineage be proved on blood film?

Answer 9

Presence of auer rods

*but if you don’t see auer rods you can’t be sure whether its myeloid or lymphoid

hence will need to do further tests

Question 10

Recall some useful supportive therapies for AML+ ALL

Answer 10

Blood products: red cells, platelets and FFP
Antibiotics: PCP prophylaxis, broad-spec for fever
Long line
Allopurinol (as uric acid may be released from dying cells when treatment is started)

FLuid and electrolytes

Question 11

Which type of leukaemia is most likely to present with long bone pain?

Answer 11

ALL

Question 12

Recall some sites of leukaemic involvement in ALL that you wouldnt see in AML

Answer 12

Thymus, testes, CNS, bone pain

lymphadenopathy- less common in AML

Question 13

Which ALL patients are appropriate for imatinib treatment?

Answer 13

Philadelphia chromosome positive

Question 14

What is the best technique to differentiate between AML and ALL?

Answer 14

Immunophenotyping

• immunocytochemistry
• immunohistochemistry

This has replaced cytochemistry ((Myeloperoxidase, Sudan Black, Non-specific Esterase) etc..

Question 15

What is aleukaemic leukaemia?

Answer 15

type of AML

When the leukaemic cells are not in the peripheral blood, they are restricted to the bone marrow

Question 16

Targeted treatment for AML

Answer 16

ATRA for APML

• Supportive
  
  • RBCs, platelets, FFP/ cryo if DIC, Abx, central line, allopurinol, fluids
• Combination chemotherapy
  
  • 4-5 courses (2 x induction, 2-3 x consolidation)
  • Treatment= 6 months
• Molecular targeted therapy
  
  • Tyrosine kinase inhibitors- Imatinib (if Ph chromosome +ve)
  • Antibody treatment- gemtuzumab ozogamicin (CD33mAb-cytotoxic antibiotic)
• Transplantation if poor prognosis

Question 17

Epidemiology of ALL vs AML

Answer 17

ALL- commonest in children

• Second peak in elderly (50-60 years) >>>Philadelphia chromosome +ve

AML- adults,

Neonates: often (30%) develop transient abnormal myelopoeisis; resembles AML but resolves spontaneously and completely after few weeks

Question 18

Clinical features of ALL vs AML

Answer 18

ALL-

• triad- anaemia, thrombocytopaenia, neutropenia
• lymphadenoapthy
• hepatosplenomegaly
• extramedullary disease is more common eg CNS infiltration
• Testicular enlargement
• Thymic enlargement - mediastinal mass esp T cell ALL
• bone pain

AML

• triad- anaemia, thrombocytopaenia, neutropenia
• lymphadenopathy is less common
• specific subtypes:
  
  • APML can present with DIC
  • monocytic subtype can present with gum (And skin) infiltration (Monocytic in MOUTH) + hypokalaemia

Question 19

Investigations findings for AML vs ALL

Answer 19

ALL:

• high WCC- blasts (>20%)
• blasts often have blebs/tails of cytoplasm
• immunophenotyping via flow cytometry - important to confirm diagnosis
  
  • CD34- precursor stem cells
  • CD 3, 4, 8 - T lymphocytes
  • CD19, CD23, CD20 - B cells

AML:

• high WCC- blasts (20%)
• auer rods + granules - may be present - but not always
• immunophenotyping via flow cytometry
  
  • CD34 - precursor stem cells
  • CD 33, CD 13, MPO (myeloid cells)

Question 20

Treatment of AML vs ALL

Answer 20

ALL:

• chemotherapy
  
  • remission induction - chemo agents often given with steoids
  • consolidation- high dose multi drug chemotherapy
  • CNS treatment if indicated
  • maintenance- 2 years in girls and adults, 3 years in boys
  • Boys treated for longer because testes are a site of accumulation of lymphoblasts
• consider allogeneic stem cell transplant if high risk of relapse

AML

• Chemotherapy
  
  • Remission induction: daunorubicin, cytarabine
• Consolidation: cytarabine
• No CNS prophylaxis/maintenance therapy needed usually
• Allogeneic stem cell transplant- consider if high risk of relaps e
• Targeted treatment
  
  • ATRA for APML
  • Midostaurin- FLT3 mutations
  • Gemtuzumab- CD33 immunotherapy
  • Enasidenib- IDH mutations
• Supportive treatment
  
  • blood products
  • Abx
  • Allopurinol
  • Fluid
  • Electrolytes

**NB- supportive involves prevention of Tumour Lysis syndrome: FBC may show ‘tumour lysis syndrome’ = high K+, LDH, PO42-, uric acid

Question 21

Which haematological malignancies can be philadelphia positive?

Answer 21

CML and some ALL

(ALL- tends to be in the second peak that occurs in the elderly)

Chr 9,22 translocation

Question 22

ACUTE leukaemia =

Answer 22

>20% blasts present

Question 23

what determins good prognosis for ALL

Answer 23

• Cytogenetics
  
  • Good prognosis:
    
    • Hyperdiploidy
    • t(12;21)
    • t(1;19)
• Bad prognosis:
  
  • t(4;11)
  • Hypodiploidy
• Bad prognosis of ALL in kids= VERY high WCC
• NOTE: non-Caucasian and males are also poor prognostic factors

Question 24

cytogenetics of AML

Answer 24

• Cytogenetics:
  
  • t(8;21)
  • Inversion on Chr 16

Question 25

treatment for APML and is acute promyelocytic leukaemia curable

Answer 25

• CURABLE – 90% 5-year survival
• Treatment: Platelets, chemotherapy, All-trans-retinoic acid (ATRA), A₂O₃

Question 26

what is tumour lysis syndrome + how is treated

Answer 26

FBC may show ‘tumour lysis syndrome’ = high K+, LDH, PO42-, uric acid

supportive therapy:

Fluids + electrolytes + allopurinol

• IMMEDIATE action high WCC >>> reduce Tumour Lysis Syndrome: Allopurinol + hyperhydration