Haematology

Question 1

What 2 groups can macrocytic anaemia be split into and what are examples of each?

Answer 1

1. megaloblastic: B12 deficiency (pernicious), folate deficiency, drugs (sulfonamides), gastrectomy, terminal ileum resection
2. normoblastic: liver disease, alcoholism, hypothyroidism, myelodysplasia, anticonvulsants

Question 2

What are 5 blood test abnormalities that may be seen in anti-phospholipid syndrome?

Answer 2

1. Anti-cardiolipin antibodies
2. Lupus anticoagulant
3. Anti beta2 glycoprotein 1 antibody
4. Prolonged APTT (paradoxical)
5. Low platelets

Question 3

What are the criteria for diagnosing hereditary haemorrhagic telangiectasia?

Answer 3

2 criteria - possible diagnosis
3 or more - definite diagnosis
the criteria:
1. epistaxis
2. telangiectases multiple at characteristic sites (lips, oral cavity, fingers, nose)
3. visceral lesions e.g. GI telangiectasia (+/- bleeding), pulmonary AVMs, hepatic AVM, cerebral AVM, spinal AVM
4. family history first-degree relative with HHT

Question 4

What is the key histological finding in Hodgkin’s lymphoma?

Answer 4

Reed-Sternberg cells (cells of B cell origin, unable to express antibodies)

Question 5

What are the 5 types of Hodkin’s lymphoma and which has a different treatment paradigm?

Answer 5

1. nodular sclerosis
2. mixed cellularity
3. lymphocyte-depleted
4. lymphocyte-rich
5. nodular lymphocyte predominant Hodgkin disease (different treatment, unique entity)

Question 6

What is Pel-Ebstein fever in Hodgkin’s lymphoma?

Answer 6

high fever for 1-2 weeks followed by afebrile period of 1-2 weeks

Question 7

What is alcohol induced pain with lymphadenopathy specific for?

Answer 7

Hodgkin’s disease

Question 8

What system is sued to stage Hodgkin’s disease?

Answer 8

Ann Arbor system

Question 9

What is the treatment for Hodgkin’s lymphoma?

Answer 9

radiotherapy and/or chemotherapy

Question 10

What is the commonest inherited theombophilia?

Answer 10

Factor V Leiden

Question 11

What are 5 examples of inherited thrombiphilias?

Answer 11

1. Factor V Leiden
2. Prothrombin gene mutation
3. Anthrombin III deficiency
4. Protein S deficiency
5. Protein C deficiency

Question 12

What is an example of an acquired thrombophilia?

Answer 12

Antiphospholipid syndrome

Question 13

What are 4 features of polycythaemia?

Answer 13

1. Pruritus - particularly after warm bath
2. Ruddy complexion
3. Gout
4. Peptic ulcer disease

Question 14

What is the commonest secondary cause of antiphospholipid syndrome?

Answer 14

SLE

Question 15

Why does antiphospholipid syndrome cause a paradoxical rise in APTT?

Answer 15

ex-vivo reaction of lupus anticoagulant antibodies with phospholipids involved in the coagulation cascade

Question 16

What are 4 diseases associated with anti-phospholipid syndrome?

Answer 16

1. SLE
2. other autoimmune disorders
3. lymphoproliferative disorders
4. phenothiazindes (rare)

Question 17

What is a key dermatological manifestation of antiphospholipid syndrome?

Answer 17

livedo reticularis

Question 18

What is the primary thromboprophylaxis management for antiphospholipid syndrome?

Answer 18

low-dose aspirin

Question 19

What is the secondary thromboprophylaxis given in antiphospholipid syndrome?

Answer 19

• initial VTE event: lifelong warfarin, target INR 2-3
• recurrent VTE: lifelong warfarin; if whilst taking warfarin add low dose aspirin, target 3-4
• arterial thrombosis: lifelong warfarin target INR 2-3

Question 20

What is immune (idiopathic) thrombocytopenic purpura?

Answer 20

immune-mediated reduction in platelet count; antibodies are directed against glycoprotein IIb/IIIa or Ib-V-IX complex

Question 21

What type of hypersensitivity reaction is immune thrombotuopenic purpura?

Answer 21

type II

Question 22

What are the key features of immune thrombocytopenia in children?

Answer 22

• bruising, petechial or purpuric rash, bleeding less common (if occurs - epistaxis or gingival bleeding)
• more acute than in adult

Question 23

What will investigations show in immune thrombocytopenic purpura in children in children?

Answer 23

FBC - isolated thrombocytopenia
bone marrow examination - only required if atypical features e.g. LN enlargement/splenomegaly, high/low WCC, failure to resolve/respond to treatment

Question 24

What is the management of immune thrombocytopenic purpura in chidlren?

Answer 24

• resolves spontaneously in 80% of children within 6 months with or without treatment
• avoid activties that may result in trauma e.g. team sports
• if platelet count <10 or significant bleeding, options: oral/IV corticosteroid, IVIG, platelet transfusion in emergency

Question 25

What should be administered during cardiac arrest if pulmonary embolism is suspected & how does this cahnge the CPR algorithm?

Answer 25

thrombolytic drugs e.g. alteplase - if given, CPR should be continued for extended period 60-90 min

Question 26

What is the classical genetic abnormality in chronic myeloid leukaemia?

Answer 26

• Philadelphia chromosome
• = translocation between long arm of chromosome 9 and 22
• results in ABL proto-oncogene being fused with BCR gene - BCR-ABL gene codes for fusion protein with increased tyrosine kinase activity

Question 27

At what age does chronic myeloid leukaemia present?

Answer 27

60-70 years

Question 28

What are the key presenting clinical features of chronic myeloid leukaemia?

Answer 28

• anaemia: lethargy
• weight loss and sweating
• splenomegaly → abdo discomfort
• increase in granulocytes at different stages of maturation +/- thrombocytosis
• decreased leukocyte alkaline phosphatase
• may undergo blast transformation (AML in 80%, ALL in 20%)

Question 29

What is the first-line management of chronic myeloid leukaemia?

Answer 29

imatinib - inhibits tyrosine kinase associated with BCR-ABL defect

Question 30

What are 4 options for treatment of chronic myeloid leukaemia?

Answer 30

• imatinib
• hydroxyurea
• interferon-alpha
• allogenic bone marrow transplant

Question 31

What are 2 types of acute leukaemia and when do they classically present?

Answer 31

• Acute myeloid leukaemia - adulthood
• Acute lymphoblastic leukaemia - childhood (2-5 years)

Question 32

What is the most common type of childhood malignancy?

Answer 32

acute lymphoblastic leukaemia (ALL)

Question 33

What are the clinical features of acute lymphoblastic leukaemia?

Answer 33

• anaemia - lethargy and pallor
• neutrophenia - infections
• thrombocytopenia - bruising, petechiae
• bone pain
• splenomegaly
• hepatosplenomegaly
• fever
• testicular swelling

Question 34

What are 3 types of acute lymphoblastic leukaemia?

Answer 34

1. common ALL (75%) - CD10 present, pre-B phenotype
2. T-cell ALL
3. B-cell ALL

Question 35

What are 5 poor prognostic factors for ALL?

Answer 35

1. age < 2 years or >10 years
2. WBC <20 at diagnosis
3. T or B cell surface markers
4. non-Caucasian
5. male sex

Question 36

Which patient group does haemolytic uraemic syndrome usually present in?

Answer 36

young children

Question 37

What is the triad of symptoms seen in haemolytic uraemic syndrome?

Answer 37

1. acute kidney injury
2. microangiopathic haemolytic anaemia
3. thrombocytopenia

Question 38

What is the class cause of primary haemolytic uraemic syndrome?

Answer 38

• Shiga toxin-producing E coli (STEC) 0157:H7

Question 39

In addition to STEC, what are 3 other causes of secondary haemolytic uraemic syndrome?

Answer 39

1. pneumococcal infection
2. HIV
3. SLE, drugs, cancer

Question 40

What causes primary (atypical) HUS?

Answer 40

complement dysregulation

Question 41

What are 3 investigations to perform in haemolytic uraemic syndrome?

Answer 41

1. FBC - anaemia (microangiopathic haemolytic anaemia), thrombocytopenia, fragmented blood film
2. U+E - AKI
3. stool culture - PCR for Shiga toxins, looking for STEC

Question 42

What will blood film show in haemolytic uraemic syndrome?

Answer 42

fragmented: schistocytes and helmet cells

Question 43

What will Coombs test show in haemolytic uraemic syndrome?

Answer 43

negative

Question 44

What is the management of haemolytic uraemic syndrome?

Answer 44

• supportive - fluids, blood transfusion, dialysis if required
• plasma exchanged in severe cases NOT associated with diarrhoea
• eculizumab in adult atypical HUS

Question 45

What are 4 types of crises in sickle cell anaemia?

Answer 45

1. thrombotic a.k.a. ‘vaso-occlusive’ ‘painful crises’
2. acute chest syndrome
3. anaemic aplastic or sequestration
4. infection

Question 46

What are 3 things that can precipitate a vaso-occlusive / thrombotic sickle cell crisis?

Answer 46

1. infection
2. dehydration
3. deoxygenation e.g. high altitude

Question 47

What are 5 sites where infarction can occur in a sickle cell vaso-occlusive (thrombotic) crisis?

Answer 47

1. avascular necrosis of hip
2. hand-foot syndrome (children)
3. lungs
4. spleen
5. brain

Question 48

What is acute chest syndrome in sickle cell disease?

Answer 48

vaso-occlusion within the pulmonary microvasculature leading to infarction in the lung parenchuma

Question 49

What is the management of acute chest syndrome in sickle cell disease?

Answer 49

• pain relief
• respiratory support e.g. oxygen therapy
• antibiotics
• transfusion - improves oxygenation

Question 50

What causes aplastic crises in sickle cell disease?

Answer 50

infection with parvovirus

Question 51

How will aplastic crises in sickle cell disease manifest on blood tests?

Answer 51

• sudden fall in Hb
• reduced reticulocyte count (bone marrow suppression)

Question 52

What is a sequestration crisis in sickle cell disease?

Answer 52

• sickling within organs such as spleen or lungs causing pooling of blood with worsening of the anaemia
• may present with splenomegaly, abdominal pain, clinical anaemia

Question 53

How will a sequestration crisis in sickle cell disease manifest on blood tests?

Answer 53

worsening of anaemia, INCREASED reticulocyte count

Question 54

How can aplastic and sequestration crises be differentiated in sickle cell disease, on the basis of blood tests?

Answer 54

reticulocyte count increased in sequestration, reduced in aplastic

Question 55

What are 6 PRC transfusion reactions?

Answer 55

1. Non-haemolytic febrile reaction
2. Minor allergic reaction
3. Anaphylaxis
4. Acute haemolytic reaction
5. Transfusion-associated circulatory overload (TACO)
6. Transfusion-related acute lung injury (TRALI)

Question 56

What are the features of non-haemolytic febrile reaction in response to blood transfusion?

Answer 56

fever, chills

10-30% caused by platelet transfusion

Question 57

What is the management of a non-haemolytic febrile reaction?

Answer 57

slow or stop transfusion, paracetamol, monitor

Question 58

What is thought to cause non-haemolytic febrile transfusion reaction?

Answer 58

HLA antibodies reacting with white cell fragments in the blood product and cytokines that have leaked from the blood cell durting storage - often due to sensitisation by previous pregnancies / transfusions

Question 59

What is thought to cause minor allergic reactions to blood transfusion?

Answer 59

foreign plasma proteins

Question 60

What are the features of a minor allergic reaction to blood transfusion?

Answer 60

pruritis, urticaria

Question 61

What is the management of minor allergic reaction to blood transfusion?

Answer 61

• temporarily stop transfusion
• antihistamine
• monitor
• once symptoms resolve, transfusion may be continued

Question 62

What can cause anaphylaxis in response to blood transfusion?

Answer 62

patients with IgA deficiency who have anti-IgA antibodies

Question 63

What is the management of anaphylaxis in response to blood transfusion?

Answer 63

permanently discontinue - administer IM adrenaline - supportive care; antihistamine, steroids and bronchodilators, IVF

Question 64

What causes an acute haemolytic transfusion reaction?

Answer 64

mismatch of blood group (ABO) causng massive intravascular haemolysis - usually result of red blood cell destruction by IgM type antibodies

Question 65

How quickly do acute haemolytic transfusion reaction symptoms develop and what are they?

Answer 65

• within minutes
• fever, abdominal / chest pain, agitation, hypotension

Question 66

What is the management of acute haemolytic transfusion reaction?

Answer 66

• stop transfusion
• confirm diagnosis - check patient ID / blood product
• send blood for direct Coomns test, repeat typing and cross-matching
• IVF resuscitation
• inform lab

Question 67

What are 2 possible complications of acute haemolytic transfusion reaction?

Answer 67

• intravascular coagulation
• renal failure

Question 68

What are 2 things that can pre-dispose to transfusion-associated circulatory overload?

Answer 68

1. excessive rate of transfusion
2. pre-exisitng heart failure

Question 69

What is a key difference in TACO that is not seen in TRALI?

Answer 69

patients may be hypertensive in TACO

Question 70

What is the management of TACO?

Answer 70

slow or stop transfusion
consider IV loop diuretic and O2

Question 71

What is transfusion-related acute lung injury (TRALI)?

Answer 71

• non-cardiogenic pulmonary oedema
• thought secondary to increased vascular permeabiliy caused by host neutrophils
• activated by substances in donated blood
• develop hgypoxaemia / acute respiratory distress syndrome

Question 72

How quickly does TRALI develop?

Answer 72

within 6 hours of transfusion

Question 73

What are 4 key features of TRALI?

Answer 73

1. hypoxia
2. pulmonary infiltrates on CXR
3. fever
4. hypotension

Question 74

What is the management of TRALI?

Answer 74

stop transfusion, oxygen, supportive care

Question 75

What are 4 ways that the risk of vCJD from blood transfusion has been reduced?

Answer 75

1. leucodepletion to reduce vCJD infectivity
2. plasma derivated have been fractionated from imported plasma (not UK donors)
3. FFP for children / certain adult groups imported
4. recipients of blood transfusion excluded from donating blood

Question 76

What are 4 secondary causes of polycythaemia which are due to excessive erythropoietin?

Answer 76

1. cerebellar haemangioma
2. hypernephroma
3. hepatoma
4. uterine fibroids

Question 77

How can you differentiate between true (primary or secondary) polycythaemia and relative polycythaemia (dehydration / stress)?

Answer 77

red cell mass studies are sometimes used. In true polycythaemia the total red cell mass in males > 35 ml/kg and in women > 32 ml/kg (not in relative PC)

Question 78

What are 2 relative causes of polycythaemia?

Answer 78

1. dehydration
2. stress (Gaisbock syndrome)

Question 79

What is primary polycythaemia called?

Answer 79

polycythaemia rubra vera

Question 80

What are 4 secondary causes of polycythaemia?

Answer 80

1. COPD
2. altitude
3. OSA
4. excessive EPO

Question 81

What is a cause of episodic RUQ pain in a patient with hereditary spherocytosis?

Answer 81

biliary colic - chronic haemolysis -> gallstone formation (differential - splenic rupture)

Question 82

What is the inheritance pattern of hereditary spherocytosis?

Answer 82

autosomal dominant

Question 83

What are 7 aspects of the presentation of hereditary spherocytosis?

Answer 83

1. failure to thrive
2. jaundice
3. gallstones
4. splenomegaly
5. aplastic crisis precipitated by parvovirus infection
6. degree of haemolysis variable
7. MCHC elevated

Question 84

When are no additional tests required for a diagnosis of hereditary spherocytosis?

Answer 84

• patients with family history of HS
• typical clinical features
• typical laboratory investigations: spherocytes, raised mean corpuscular haemoglobin concentration (MCHC), high reticuloctes

Question 85

If diagnosis is equivocal based on initial presentation and lab tests, what is the diagnostic test for hereditary spherocytosis?

Answer 85

EMA binding test and cryohaemolysis test

Question 86

What is the method of choice for diagnosing hereditary spherocytosis with atypical presentations?

Answer 86

electrophoresis analysis of erythrocyte membranes

Question 87

What is the management of an acute haemolytic crisis in hereditary spherocytosis?

Answer 87

supportive, transfuse if necessary

Question 88

What are 2 aspects of the long term management of hereditary spherocytosis?

Answer 88

1. folate replacement
2. splenectomy

Question 89

Which region of the world is hereditary spherocytosis more common?

Answer 89

North European

Question 90

What are 4 types of Hodgkin’s lymphoma and their relative frequencies?

Answer 90

1. Nodular sclerosing - 70% (commonest)
2. Mixed cellularity (20%)
3. Lymphocyte predominant (5%)
4. Lymphocyte depleted (rare)

Question 91

What is the order of prognosis of the 4 types of Hodgkin’s lymphoma from best to worst?

Answer 91

1. Best: Lymphocyte predominant
2. Good: nodular sclerosing
3. Good: mixed cellularity
4. Worst: lymphocyte depleted

Question 92

Which type of Hodgkin’s lymphoma is associated with lacunar cells?

Answer 92

nodular sclerosing

Question 93

Which type of Hodgkin’s lymphoma is associated with a large number of Reed-Sternberg cells?

Answer 93

mixed cellularity

Question 94

What symptoms imply a poor prognosis in Hodgkin’s lymphoma?

Answer 94

B symptoms - weight loss >10% in last 6 months, fever >38, night sweats

Question 95

What are 7 factors associated with a poor prongosis in Hodgkin’s lymphoma other than b symptoms?

Answer 95

1. age > 45 years
2. stage IV disease
3. Hb <10.5
4. lymphocytes < 600 or 8%
5. male
6. albumin < 40
7. WCC < 15 000

Question 96

Of blood transfusion and exchange transfusion in sickle cell crises, which can rapidly reduce the percentage of Hb S containing cells?

Answer 96

exchange transfusion (not blood)

Question 97

When should you admit patients with features of a sickle cell crisis?

Answer 97

• all children with fever - particularly if unexplained
• low threshold for all children
• temperature over 38
• any chest symptoms

Question 98

What are 4 blood test findings in iron deficiency anaemia?

Answer 98

1. low ferritin (can be raised during inflammatory states)
2. increased total iron binding capacity (TIBC)
3. low serum iron
4. reduced transferrin saturation (but increased transferrin)

Question 99

What type of anaemia is IDA?

Answer 99

hypochromic microcytic anaemia

Question 100

For how long should patients continue taking iron after iron deficiency has been corrected?

Answer 100

3 months

Question 101

How can you differentiate between CLL and CML?

Answer 101

• chronic lymphocytic leukaemia - lymphocytosis with mature lymphocytes and smudge cells on peripheral smear
• chronic myeloid leukaemia - increased numbers of granulocytes at all stages of development, splenomegaly + high platelets

Question 102

What is the inheritance pattern of beta-thalassaemia?

Answer 102

autosomal recessive

Question 103

What are 2 features on blood tests of beta-thalassaemia trait?

Answer 103

• mild hypochromic, microcytic anaemia - microcytosis disproportionate to anaemia
• HbA2 raised (>3.5%)

Question 104

What is the mechanism of action of dabigatran?

Answer 104

direct thrombin inhibitor

Question 105

What is the reversal agent for dabigatran?

Answer 105

idarucizumab

Question 106

Which drugs can andexanet alfa be used as the reversal agent?

Answer 106

rivaroxaban + apixaban

Question 107

What is the mechanism of action of rivaroxaban / apixaban / edoxaban?

Answer 107

direct factor Xa inhibitor

Question 108

What is the excretion of different DOACs?

Answer 108

• dabigatran: renal
• rivaroxaban: liver
• apixaban: faecal
• edoxaban: faecal

Question 109

At what partial pressure of oxygen do patients with HbAS (one normal, one abnormal chain) RBCs sickle?

Answer 109

2.5-4 kPa

Question 110

At what partial pressure of oxygen do patients with HbSS (two abnormal chains) RBCs sickle?

Answer 110

pO2 5-6 kPa

Question 111

How is a definitive diagnosis of sickle cell disease made?

Answer 111

haemoglobin electrophoresis

Question 112

What are 2 causes of benign paraproteinaemia?

Answer 112

1. monoclonal gammopathy of undetermined significance (MGUS)
2. transient paraproteinaemia (e.g. after infection)

Question 113

What are 4 malignant causes of paraproteinaemia?

Answer 113

1. multiple myeloma
2. Waldenstrom macroglobulinaemia
3. primary amyloidosis
4. B-cell lymphoproliferative disorders e.g. CLL, non-Hodgkin lymphoma

Question 114

What are 5 clinical features of paraproteinaemia?

Answer 114

1. hyperviscosity syndrome
2. neuropathy e.g. sensory, motor, autonomic
3. renal dysfunction
4. haematologic abnormalities e.g. anaemia, thrombocytopenia, leukopenia
5. bone pain or pathologic fractures

Question 115

What are 3 key aspects of the management of polycythaemia vera?

Answer 115

1. aspirin - reduces risk of thrombotic events
2. venesection - first line to normalise Hb
3. chemotherapy - hydroxyurea, phosphorus-32 therapy

Question 116

What are 2 options for chemotherapy for polycythaemia rubra vera?

Answer 116

1. hydroxyurea
2. phosphorus-32 therapy

Question 117

What are 3 key risks in polycythaemia vera?

Answer 117

1. thrombotic events
2. progression to myelofibrosis
3. progression to acute leukaemia (chemotherapy increases risk)

Question 118

What are 5 features of post-thrombotic syndrome after DVT?

Answer 118

1. painful, heavy calves
2. pruritus
3. swelling
4. varicose veins
5. venous ulceration

Question 119

What is the advice regarding compression stockings and post-thrombotic syndrome?

Answer 119

NICE advise do not offer elastic compression stockings to prevent PTS or VTE recurrence - but recommended once PTS has developed

Question 120

What are 5 causes of microcytic anaemia?

Answer 120

1. iron-deficiency anaemia
2. thalassaemia
3. congenital sideroblastic anaemia
4. anaemia of chronic disease (but more commonly normocytic)
5. lead poisoning

Question 121

What does normal Hb with microcytosis raise the possibility of?

Answer 121

polycythaemia rubra vera

Question 122

In which condition can a microcytosis be disproportionate to the anaemia?

Answer 122

beta thalassaemia

Question 123

In which condition are ‘tear drop’ poikilocytes generally seen?

Answer 123

myelofibrosis (flat, elongated RBCs)

Question 124

In which condition are smear cells generally seen on a blood film?

Answer 124

chronic lymphocytic leukaemia (CLL)

Question 125

In what 2 conditions are spherocytes seen on a blood film?

Answer 125

1. hereditary spherocytosis
2. autoimmune haemolytic anaemia

Question 126

What are 2 conditions in which target cells (RBCs) are seen on blood film?

Answer 126

1. iron-deficiency anaemia
2. hyposplenism

Question 127

In which condition are Auer rods classically seen?

Answer 127

acute promyelocytic leukaemia

Question 128

What is the more common form of acute leukaemia in adults?

Answer 128

acute myeloid leukaemia

Question 129

What are 5 features of acute myeloid leukaemia?

Answer 129

1. Anaemia
2. Neutropenia - may be high WCCs, low functioning neutrophils
3. thrombocytopenia + bleeding
4. splenomegaly
5. bone pain

Question 130

What are 3 poor prognostic features in AML?

Answer 130

1. > 60 years
2. > 20% blasts after first course of chemo
3. cytogenetics: deletions of chromosome 5 or 7

Question 131

What causes acute promyelocytic leukaemia M3 genetically?

Answer 131

associated with t(15;17), fusion of PML and RAR-alpha genes

Question 132

What is the prognosis of acute promyelocytic leukaemia M3 compared with other AML?

Answer 132

good prognosis

Question 133

What age group is commonly affected by acute promeylocytic leukaemia M3?

Answer 133

younger than other AML types - avg 25 years

Question 134

What is often seen at presentation of Acute promyelocytic leukaemia M3?

Answer 134

DIC or thrombocytopenia

Question 135

What classification is used for AML?

Answer 135

French-American-British (FAB) classification, M0-M7

Question 136

When does WHO recommend platelet transfusion is given?

Answer 136

platelet count < 30 with clinically significant bleeding (haematemesis, melaena, prolonged epistaxis)

Question 137

When is a platelet threshold > 30 used?

Answer 137

maximum <100 for patients with severe bleeding or critical sites e.g. CNS

Question 138

Which type of blood product has the highest risk of bacterial contamination?

Answer 138

platelet transfusion

Question 139

What are the platelet thresholds that are aimed for before surgery / invasive procedure?

Answer 139

• most patients: > 50
• high risk of bleeding: 50-75
• surgery at critical site: > 100

Question 140

What is the target level of platelets in someone without active bleeding or any planned procedure?

Answer 140

threshold of 10 (except if platelet transfusion CI / there are alternative treatments)

Question 141

What are 4 conditions when platelet transfusion should not be performed?

Answer 141

1. chronic bone marrow failure
2. autoimmune thrombocytopenia
3. heparin-induced thrombocytopenia
4. thrombotic thrombocytopenic purpura

Question 142

What is the most common inherited bleeding disorder?

Answer 142

von Willebrand’s disease

Question 143

What is the inheritance pattern of von Willebrand’s disease?

Answer 143

most commonly autosomal dominant (type 3, total lack of vWF = autosomal recessive)

Question 144

What type of bleeding does von Willebrand’s disease cause?

Answer 144

behaves like platelet disorder - epistaxis and menorrhagia common, haemarthroses and muscle haematomas rare

Question 145

What is the role of von Willebrand factor?

Answer 145

large glycoprotein which forms massive multimers; promotes platelet adhesion to damaged endothelium. also carrier molecule for factor VIII

Question 146

What are 3 types of von Willebrand’s disease?

Answer 146

1. type 1: partial reduction in vWF (80% of patients)
2. type 2: abnormal form of vWF
3. type 3: total lack of vWF

Question 147

What are 4 blood test findings in von Willebrand’s disease?

Answer 147

1. prolonged bleeding time
2. prolonged APTT
3. factor VIII levels may be moderately reduced
4. defective platelet aggregation with ristocetin

Question 148

What are 3 aspects of the treatment of von Willebrand’s disease?

Answer 148

1. TXA - mild bleeding
2. desmopressin (DDAVP) - raises vWF levels by induced release from Weibel-Palade bodies in endothelial cells
3. factor VIII ceoncentrate

Question 149

What is seen on a blood film in DIC and why?

Answer 149

schistocytes - microangiopathic haemolytic anaemia

Question 150

What are 4 things seen on FBC / clotting profile in DIC?

Answer 150

1. reduced platelets
2. reduced fibrinogen
3. raised PT and APTT
4. raised fibrinogen degradation products

Question 151

How can you distinguish between liver failure and DIC as causes for coagulopathy on blood tests?

Answer 151

• liver failure: all clotting factors low except factor VIII, which is supranormal
• DIC: all clotting factors depleted

Question 152

What are 3 causes why there is a paradoxical increased risk of venous thromboembolism in liver failure despite prolonged PT and APTT?

Answer 152

1. supranormal levels of factor VIII
2. reduced synthesis of protein c and protein s (vitamin K dependent)
3. reduced anti-thrombin synthesis (non-vtamin K dependent)

Question 153

What is the management with antiplatlets/anticoagulation in someone with a history of stable CVD + indication for anticoagulation e.g. AF?

Answer 153

anticoagulant monotherapy without antiplatelets

Question 154

What is the antiplatelet/anticoagulant management of a patient post-ACS / PCI?

Answer 154

• initially give 2 antiplatelets + 1 anticoagulant for 4 weeks - 6 months
• then 1 antiplatelet + 1 anticoagulant for 12 months

Question 155

What is anti-streptolysin O antibody associated with in children?

Answer 155

Henoch-Schonlein purpura