Haematology COPY Flashcards
Acute Promyelocytic leukaemia
Young patients in 20’s
t (15:17) creating RARA oncogene
Auer Rods
Rx with all-trans retinoid acid (ATRA)
Progressive DIC and fatal
Best prognosis for AML given high treatment response to ATRA
Common mutation in AML
FLT3 - most common
Deletion Chromosome 5 - poorest prognosis - 5q syndrome
Translocation 15:17 (RARA) - best prognosis
Management of AML
Cytarabine + Anthracycline (Daunorubicin or Idarubicin)
Plus
Midostaurin (TK inhibitor) if FLT3 positive
Differentiation syndrome post-ATRA (All-Trans Retinoic Acid)
Fever, oedema, lung infiltrates, renal and hepatic dysfunction
Stop ATRA and give dexamethasone
Treatment indications for chronic lymphocytic leukaemia
- Anaemia or Pl < 100
- Massive splenomegaly or abdominal pain
- Progressive/painful lymphadenopathy
- Lymphocyte doubling time over 6 months
- Autoimmune complications that are not controlled with steroids (autoimmune anaemia, thrombocytopenia)
B symptoms - extreme fatigue, inability to carry out ADLs, night sweats > 1 month, weight loss > 10%/6 months, fevers > 2 weeks
NOT WCC!
Cells present in CLL
Smudge cells
Cell markers in CLL
CD 19
CD20
CD 23 (differentiates from Mantle Cell Lymphoma)
CD 5 (normally a T cell marker)
Treatment CLL
- Rituximab
- Ibrutinib - if 17p deletion with p53 mutation
- Venetoclox - BCL 2 antagonist - for relapse- if 17p deletion with p53 mutation
Ibrutinib
Brutons tyrosine kinase inhibitor
For 17p deletion -> p53 mutations
Causes AF and Bleeding as side effects
Used in CLL and Mantle cell lymhoma
Chronic myeloid leukaemia mutation
Translocation 9:22 (philidelphia chromosome) -> BCR-ABL tyrosine kinase mutation
Rx
- Imatinib
- Dasatinib
- Nilotinib
Imatanib VS. Ibrutinib
Imatanib targets - t (9,22) BCR-ABL TK in CML
Ibrutinib targets - 17q, p53 mutation in CLL
5q minus syndrome
Myelodysplastic syndrome - Deletion involving Chromosome 5
Triad;
- Hypoplastic anaemia
- Atypical megakaryocytes
- Elevated platelet count
Mangement
- Lenalidomide
Prognostic score CML
APS-BEB
Age
Platelet count
Spleen size
Basophils
Eosinophils
Blasts
Imatanib resistance
Mutations in BCR-ABL TK
Amyloid associated with MM
AL (light chain) Amyloid
Poor prognostic indicator for MM
B2 - microglobulin
Poor prognostic indicator for MM
B2 - microglobulin
Cell markers on Reed-Sternberg cells
Lost ALL B cell markers, express CD15 and CD30 instead
Risk factor VWF deficiency
“A’s”
- Ageing
- African
- Antigen negative blood group (O-type blood)
- Adrenaline
- Antenatal and other increases in oestrogen
Investigations VWF
- Prolonged APTT (intrinsic pathway)
- Factor 8 levels
Rx VWF deficiency
- DDAVP - desmopression; causes released of stored VWF
- Factor 8 replacement
- Transexamic acid for bleeding
Types VWF
Type 1 - most common, partial deficiency
Type 2 - selective deficiency i.e. in Factor 8
Type 3 - autosomal recessive, complete deficiency, rare and associated with type 1 diabetes
Extrinsic pathway
Factor 3 (Tissue Factor)
Factor 7
PT
Intrinsic pathway
Factor 8
Factor 9
Factor 11
Factor 12
APTT (two T’s look like a house “inside” for intrinsic)
Common pathway
Factor 10
Factor 5
Thrombin (Factor 2)
Thrombin time (TT)
If prolonged APTT - next test?
Mixing test, will correct prolonged APTT and confirm factor deficiency
Rx Anti-phospholipid syndrome
Warfarin lifelong for patients who have thrombosis
BUT if pregnant/to reduce miscarriage - Aspirin and LMWH
Factor V leiden pathophysiology
Factor V Leiden causes a mutant form of Factor 5 which cannot be inhibited by Protein C, therefore this increases common pathway in clotting cascade leading to increased clotting risk