Haematology

Question 1

Causes of bone pain/tenderness?

Answer 1

1. Trauma/fracture (steroids increase risk)
2. Myeloma and other primaries e.g. sarcoma
3. Secondaries
4. Osteonecrosis
5. Osteomyelitis/periostitis
6. Osteosclerosis e.g. from Hep C
7. Paget’s disease of bone
8. Sickle cell anaemia
9. Renal osteodystrophy
10. CREST/Sjogrens
11. Hyperparathyroidism

Question 2

What is MGUS?

Answer 2

Monoclona gammopathy of uncertain significance. Paraprotein in serum, but no other disease or Bence-Jones, fewer than 10% plasma cells in marrow. Some may get lymphoma or myeloma, refer to haem for biopsy

Question 3

What is a Bence-Jones protein?

Answer 3

Immunoglobulin light chains in the urine

Question 4

What is a PCD?

Answer 4

A plasma cell dyscrasia (abnormal proliferation of plasma cells or lymphoplasmacytic cells leading to secretion of immunoglobulin or immunoglobulin fragments causing organ dysfunction)

Question 5

What is a paraprotein?

Answer 5

Or M protein; abnormal immunoglobulin fragment produced in excess to give M band on electrophoresis

Question 6

Classifying myeloma?

Answer 6

Based on Ig product: 2/3 IgG, 1/3 IgA, or presence/absence of Bence Jones proteins in urine

Question 7

Clinical features of myeloma?

Answer 7

CRABI

1. Hypercalcaemia [lesions caused by osteoclast activity signalled by myeloma cells]
2. Renal impairment [light chain deposition in LoH]
3. Anaemia/neutropenia/thrombocytopenia (marrow infiltration by plasma cells)
4. Osteolytic bone lesions [backache, pathological fractures, vertebral collapse]
5. Recurrent bacterial infections [immunoparesis, chemotherapy, neutropenia]

Question 8

What is immunoparesis in myeloma?

Answer 8

Low levels of other Ig due to excessive production of paraprotein

Question 9

Blood film in myeloma?

Answer 9

Get rouleaux!

Question 10

Investigations in myeloma?

Answer 10

Screening with serum/urine electrophoresis. Bloods show normocytic anaemia, raised ESR, raised urea and creatinine, alk. phos. usually normal. Bone marrow biopsy (shows many plasma cells), xrays show lytic lesions

Question 11

How do lytic lesions manifest in myeloma?

Answer 11

Pepper pot skull, vertebral collapse, fractures

Question 12

Treatment of myeloma?

Answer 12

Supportive & chemotherapy. Supportive is analgesia for bone pain, bisphosphonates, local radiotherapy, orthopaedic procedures, correct anaemia with transfusion & epo, rehydrate/dialysis to address renal failure, treat infections.
Chemotherapy and autologous stem cell transplantation.

Question 13

Diagnosis of myeloma?

Answer 13

1. Monoclonal protein band in serum or urine electrophoresis
2. Raised plasma cells on bone marrow biopsy
3. Evidence of end-organ damage from myeloma (hypercalcaemia, renal failure, anaemia)
4. Bone lesions (skeletal survey)

Question 14

Complications of myeloma?

Answer 14

1. Hypercalcaemia
2. Spinal cord compression
3. Hyperviscosity (presents with visual abnormalities, reduced cognition, bleeding; treated with plasmapheresis
4. AKI

Question 15

What is paraproteinaemia?

Answer 15

Presence in the circulation of immunoglobulins produced by a single clone of plasma cells

Question 16

Six major categories of paraproteinaemia?

Answer 16

1. Multiple myeloma
2. Waldenstroms macroglobulinaemia
3. Primary amyloidosis
4. MGUS
5. Paraproteinaemia in lymphoma or leukaemia
6. Heavy chain disease

Question 17

What is amyloidosis?

Answer 17

Group of disorders characterised by extracellular deposits of a protein in abnormal fibrillar form, resistant to degradation

Question 18

Features of primary amyloidosis?

Answer 18

Proliferation of plasma cell clone, get amyloidogenic monoclonal immunoglobulins, fibrillar light chain deposition, organ failure, death. Affects kidneys (nephrotic), heart (restrictive cardiomyopathy), nerves (peripheral and autonomic neuropathy), gut (macroglossia, haemorrhage, obstruction), vascular (purpura). Associations with Waldenstroms, lymphoma myeloma.

Question 19

Features of secondary amyloidosis?

Answer 19

Amyloid derived from the acute phase protein amyloid A, reflecting chronic inflammation e.g. RA, IBD, TB. Affects kidneys, liver, spleen, causes proteinuria, nephrotic syndrome, hepatosplenomegaly. Do NOT get macroglossia or cardiac involvement (usually)

Question 20

Diagnosing amyloidosis?

Answer 20

Biopsy of affected tissue and positive Congo Red staining under polarised light. Rectum or sub-cut fat.

Question 21

How do steroids work in myeloma?

Answer 21

Stop WCCs going to areas of the body where myeloma has caused damage

Question 22

Why give LMWH when starting warfarin?

Answer 22

Get initial pro-coagulant state

Question 23

Which cells come from lymphoid progenitor?

Answer 23

NK cells, T cells, B cells, plasma cells (B-cell lineage)

Question 24

Which cells come from myeloid progenitor?

Answer 24

Granulocytes (neutrophils, eosinophils, basophils, mast cells), RBCs, platelets, monocytes

Question 25

In anaemic and microcytic patient, what confirms diagnosis of IDA?

Answer 25

Ferritin below 15

Question 26

Features of IDA O/E?

Answer 26

Skin & mucous membrane pallor, stomatitis, glossitis and koilonychia. If severe, may get tachycardia and systolic murmur

Question 27

Treating IDA?

Answer 27

Ferrous sulfate 200mg TDS for three months then repeat bloods (increases Hb 1g/dL a week)

Question 28

What if treating IDA and anaemia persistent?

Answer 28

Raise suspicion of underlying malignancy

Question 29

Bloods in combined iron and folate deficiency?

Answer 29

Normocytic with low ferritin; supplment both!

Question 30

Blood film in myelofibrosis?

Answer 30

Leukoerythroblastic picture, tear-drop shaped red blood cells [poikilocytes] (also found in advanced prostate cancer)

Question 31

Causes of thrombocytosis?

Answer 31

Bleeding, infection, malignancy, trauma, post-surgery, iron deficiency, chronic inflammation, essential thrombocytosis

Question 32

Presentation of myelofibrosis?

Answer 32

Hypermetabolic (B symptoms, abdominal discomfort due to hepatosplenomegaly, bone marrow failure (anaemia, infections, bleedidng)

Question 33

Ix in myelofibrosis?

Answer 33

FBC shows BM failure, blood film shows leukoerythroblastic picture with poikilocytes, dry tap on BM aspiration. Definitive diagnosis with BM trephine biopsy.

Question 34

High RDW?

Answer 34

Red cell distribution width; higher means large variation (anisocytosis). Can occur in haemolytic anaemia, IDA, after transfusion, in malabsorption.

Question 35

Two causes of koilonychia?

Answer 35

Iron deficiency and Plummer-Vinson (dysphagia, oesophageal webs, iron-def)

Question 36

Symptoms of B12 deficiency?

Answer 36

Anaemia symptoms and neuro (glove and stocking loss of vibration and proprioception, weakness, subacute combined degeneration of spinal cord)

Question 37

Blood film in B12 deficiency?

Answer 37

Hypersegmented neutrophils, megaloblasts, oval macrocytes

Question 38

Causes of B12 deficiency?

Answer 38

1. Dietary (cobalamin found in meat, fish, dairy)
2. Malabsorption (lack of IF due to PA or gastrectomy, or terminal ileum [Crohns, tapeworms])
3. Congenital metabolic errors

Question 39

Uses of ferritin test?

Answer 39

Low = IDA; moderate/high less helpful as is acute phase reactant. Very high may be haemochromatosis

Question 40

What does TIBC measure and what do the results mean?

Answer 40

Ability of blood to hold onto iron; surrogate for transferrin. Higher in pregnancy becase produce more transferrin, high in IDA, low in anaemia of chronic disease (less transferrin) and hereditary haemochromatosis

Question 41

Transferrin saturation results?

Answer 41

Normal in anaemia of chronic disease (less transferrin), low in IDA (less iron), low in pregnancy (more transferrin), high in HFE!

Question 42

Genetics in hereditary haemochromatosis?

Answer 42

AR, HFE mutation. Mainly Celtic origins.

Question 43

Serum iron use?

Answer 43

Not much: low in IDA, low in AoCD (iron stored IC), normal in pregnancy, raised in HFE

Question 44

Reticulocytosis interpretation?

Answer 44

RBC precursor; pushed into peripheral blood (left shift) in haemolysis/bleeding; sign of healthy marrow so may be absent in deficit or BM failure

Question 45

Investigating hereditary haemo?

Answer 45

Do ferritin (raised), transferrin sat (high), decreased TIBC, HFE genotype. Do biopsy from affected origins to show iron deposition. MRI liver and heart show damage.

Question 46

Manifestations of hereditary haemochromatosis?

Answer 46

Iron into joints (arthropathy), into skin (bronzed skin), B cells of pancreas (DM), liver (cirrhosis/HCC), heart (HF/arrhythmia), pituitary (hypogonadotrophic hypogonadism)

Question 47

Secondary causes of haemochromatosis?

Answer 47

Severe chronic haemolysis, multiple frequent transfusions, excess dietary/parenteral iron

Question 48

Treating haemochromatosis?

Answer 48

Venesection and iron chelation therapy

Question 49

Sickle-cell anaemia patho?

Answer 49

AR mutation in B-chain of Hb to give HbS not HbA; can be SS or Ss (trait). When deoxygenated, HbS polymerises, causes sickling. Sickle cells haemolyse and cause vascular occlusion

Question 50

Significance of sickle cell trait?

Answer 50

Causes no disability but can get symptomatic sickling in hypoxia e.g. anaesthesia

Question 51

Investigations in sickle-cell anaemia?

Answer 51

Bloods show low Hb, raised reticulocytes, raised bilirubin.
Blood film shows sickle cells and target cells. Sickle solubility test positive in SS and Ss. Diagnose with Hb electrophoresis

Question 52

Three ways sickle-cell anaemia can present?

Answer 52

1. Vaso-occlusive crisis (severe pain triggered by cold/dehydration/infection/hypoxia; get mesenteric ischaemia, CNS infarction, AVN, leg ulcers, priapism [low flow])
2. Aplastic crisis (transient, precipitated by parvovirus B19, sudden reduction in marrow production)
3. Sequestration crisis (blood pools in spleen and liver, only occurs in children as adults have splenic atrophy secondary to infarction). Get severe anaemia, hypotension, hepatosplenomegaly and need urgent transfusion as can be fatal.

Question 53

Do adults with sickle cell get splenomegaly?

Answer 53

No, usually children because get infarcts during childhood and atrophy

Question 54

Complications of sickle cell anaemia?

Answer 54

Splenic infarction (and therefore encapsulated infection so need vaccines), poor growth, renal failure, gallstones, retinal disease, lung fibrosis and pulmonary HTN secondary to hypo)

Question 55

Managing sickle cell crisis?

Answer 55

Prompt analgesia, O2 if needed, sepsis screen, bloods (FBC, X-match, reticulocytes), IVT, broad spec Abx if needed. Blood transfusion if Hb falls and EXCHANGE TRANSFUSION if severe chest crisis, CNS event)

Question 56

Acute chest syndrome in sickle-cell anaemia?

Answer 56

Manifestation of sickle cell crisis with emboli to lungs (fat from BM or infectious. Get pain, wheeze, tachypnoea. Give O2, Abx, bronchodilators, transfuse if needed.

Question 57

Three phases of CML?

Answer 57

1. Stable phase (can last years, few symptoms)
2. Accelerated phase (increasing symptoms, spleen size, BASOPHILIA)
3. Blast transformation (transforms to AML/ALL, death)

Question 58

Presentation of CML?

Answer 58

Mostly chronic and insidious (weight loss, fever, sweats). May be gout, bleeding, abdo discomfort from splenomegaly (a cause of massive splenomegaly), or incidentally (30%). Can present with hyperviscosity (get CVA etc.); may need leukapheresis in emergency

Question 59

Treating CML?

Answer 59

If have Ph (better prog) give BCR-ABL TKI (e.g. dasatinib). Also use hydroxycarbamide.
HSCT is only cure (only for young).

Question 60

Signs, symptoms and investigations in CLL?

Answer 60

1. Often asymptomatic, incidental with raised WCC on FBC. May be anaemic, infection prone, or weight loss.
2. Signs: enlarged, rubbery non-tender nodes, spleno/hepatomegaly
3. FBC shows lymphocytes elevted. Later get AIH, marrow infiltration and BM failure. Film shows smear cells (fragile cels)

Question 61

Investigations in CML?

Answer 61

FBC shows very high WCC with lots of myeloid cells (neuto, baso, mono, eosino). Blood film shows many granulocytes at different maturity ages

Question 62

Differences between CML and CLL?

Answer 62

CML usually younger, more B symptoms, get massive hepatosplenomegaly, and blood film shows granulocytes

Question 63

What is TACO?

Answer 63

Transfusion associated circulatory over-load; get hypervolaemia. SOB, oedema, HTN. RFs are extremes of age, CKD/lung disease/CVD, low albumin, severe anaemia

Question 64

What is TRALI?

Answer 64

Transfusion-related acute lung injury. SOB, hypoxia (similar to ARDS, hypotension (unlike TACO). Immune-mediated. Occurs in first six hours post transfusion. Supportive management with steroids, fluids, vasopressors

Question 65

IDA alongside low albumin and calcium?

Answer 65

Suggestive of malabsorption as cause of anaemia e.g. coeliac

Question 66

Autosplenectomy?

Answer 66

Occurs in SCA. Spleen initially becomes enlarged with removal of abnormal blood cells. After continuous hypoxic and thrombotic insults, reduced to non-functional, small mass of fibrotic tissue

Question 67

Features of DIC?

Answer 67

Triad of thrombocytopenia, rise in PT/APTT/TT, low fibrinogen. Get rise in FDPs (fibrin degradation products)/D-dimer. Blood film may show schistocytes (fragmented red blood cells arising from microangiopathic haemolysis as red cells trapped in fibrin mesh). Get abnormal activation of coagulation and unregulated fibrinogen deposition and lysis, so get bleeding and thrombosis simultaneously

Question 68

Differentiating AoCD and IDA?

Answer 68

Ferritin high in AoCD, low in IDA, and TIBC low in AoCD, high in IDA

Question 69

What does plasmin do?

Answer 69

Degrades fibrin and fibrinogen to products that inhibit thrombin, preventing over-coagulation. This is why fibrinolytics are used in stroke etc.

Question 70

Three key events in haemostasis?

Answer 70

1. Vasoconstriction
2. Platelet aggregation to form primary haemostatic plug
3. Clotting cascade activated to form a fibrin plug

Question 71

Myeloma and stroke?

Answer 71

Myeloma predisposes to hypercoagulable state therefore CVA

Question 72

Haptoglobins in haemolysis?

Answer 72

These are serum proteins which bind Hb released by RBCs. These complexes (haemoglobin-haptoglobin) and removed by the RES. In haemolysis, get more Hb released so lower serum haptoglobins

Question 73

Hereditary sphero inheritance?

Answer 73

Mostly AD, 25% AR

Question 74

Antibodies in pernicious anaemia?

Answer 74

90% have parietal cell antibodies, 50% have antibodies to intrinsic factor

Question 75

Features of Fanconi’s anaemia?

Answer 75

Defective DNA repair. AshkenaziJews. Abnormal/absent radii or thumbs. Also kidney malformations, microcephaly, hypogonadism, high fetal Hb. Most common cause of inherited aplastic anaemia and is big cause of AML in paeds. Rx is HSCT.

Question 76

Causes of DIC?

Answer 76

(Gram negative) sepsis, trauma, haemorrhage, malignancy, vascular abnormalities, hepatic failure

Question 77

What is APLS?

Answer 77

Disorder characterised by hypercoagulable state with autoantibodies against phospholipid components inc. cardiolipin (therefore do anti-cardiolipin Abs). Can cause recurrent spontaneous miscarriages. 10% have renal abnormalities

Question 78

Risk factors for AML?

Answer 78

Down syndrome, benzene exposure, previous radiotherapy

Question 79

Rouleax?

Answer 79

Stacks of red blood cells, seen in chronic inflammation e.g myeloma and are reason for raised ESR

Question 80

Managing major and minor bleeding in haemophilia A?

Answer 80

Minor = desmopressin (encourages factor VIII release) and TXE and supportive.
Major - give recombinant factor 8.

Question 81

Coag in haemophilia A vs VWD?

Answer 81

Haemophilia A = long APTT, normal PT and bleeding time. VWD = long APTT and bleeding time, normal PT (and plt).

Question 82

Types of VWD?

Answer 82

Types II and II are AD, type III is AR

Question 83

Treating VWD?

Answer 83

Give recombinant VWF +/- factor VIII (can become depleted)

Question 84

Role of VWF?

Answer 84

Assists platelet adhesion and factor VIII stabilisation (hence why factor VIII needed in severe VWD)

Question 85

How can transfusion lead to heart failure?

Answer 85

Can get transfusion haemosiderosis where iron deposits in endocrine organs and the heart, detected by MRI and can cause heart failure. A consideration in repeated transfusion

Question 86

Which patients get treatment in CLL?

Answer 86

Must be properly symptomatic e.g. significant B symptoms or complications from lymphadenopathy/splenomegaly/hepatomegaly. Can give rituximab, fludarabine, not HSCT in CLL

Question 87

Target INR for patients who get recurrent VTE while on adequate warfarin therapy?

Answer 87

3.5 as are clearly high risk

Question 88

Managing men with unexplained IDA and Hb below 11?

Answer 88

Need urgent gastro referral. If also have dyspepsia may get referral with higher Hb

Question 89

Hypochromic RBCs with target cells are seen in?

Answer 89

Get central pallor. Seen in Hbopathies e.g. thalassaemia or IDA

Question 90

Pentad of CFs in TTP?

Answer 90

Haemolytic anaemia, thrombocytopenic purpura, fever, neurological and renal abnormalities

Question 91

RF for TTP?

Answer 91

Female gender, obesity, pregnancy, Afro-Caribbean

Question 92

Patho of TTP?

Answer 92

Get low platelet count due to clotting and so get platelets sequestered inside small vessels. First line treatment is plasma exchange with FFP

Question 93

Signs of parvovirus B19 infection?

Answer 93

Slapped cheek rash, fever, new purpuric/macular rash on extremities

Question 94

Inheritance of haemophilia A and B?

Answer 94

Both are X-linked recessive

Question 95

How does ITP present?

Answer 95

Features of thrombocytopenia and reduced ability to achieve haemostasis e.g. epistaxis, prolonged gum bleeding, menorrhagia, PPH, spont. bruising. OE get petechial or purpuric rash and areas of ecchymoses.

Question 96

Treating ITP?

Answer 96

Depends on platelet level; steroids if mild, if severe or moderate-severe bleeding may get IVIg or platelet transfusion

Question 97

First-line treatment of thrombocytosis?

Answer 97

Hydroxyurea

Question 98

Four characteristic features of essential thrombocytosis?

Answer 98

Raised platelets, hyperplasia of megakaryocytes in bone marrow, splenomegaly, episodes of bleeding or thrombosis (can present with either)

Question 99

Most common form of NHL?

Answer 99

Follicular lymphoma

Question 100

Features of follicular lymphoma?

Answer 100

C’somal transolocation between 14 and 18, over-produce bcl-2. Affects men and women equally, incidence increases with age. Present with painless progressive adenopathy, B symptoms come later. Do LN biopsy.

Question 101

How does ALL present?

Answer 101

Hepatosplenomegaly, generalised lymphadenopathy, bruising. Fatigue, joint and bone pain, superimposed infections leading to infections e.g. otitis media

Question 102

What is TdT a marker of?

Answer 102

Expressed in immature lymphocytes and lost when matured so can be use to detect immature cells in ALL etc.

Question 103

What are Auer rods and what are they associated with?

Answer 103

Intracytoplasmic dark pink rods, found in immature cells in APML

Question 104

What are Howell-Jolly bodies?

Answer 104

Features of splenic disruption (along with nucleated red cells) suggestive of SCD

Question 105

What % of blasts in the BM denotes complete remission?

Answer 105

<5%