Haemaglobinopathies and Obstetric Haematology

Question 1

How is the production of erythrocytes controlled?

Answer 1

By the production of EPO by the kidneys in response to tissue oxygen concentration

Question 2

What are the 3 functions of the globin molecule in Hb?

Answer 2

1) Protects haem group from oxidation
2) Renders the molecule soluble
3) Permits variation in oxygen affinity

Question 3

All normal Hb are made up of what?

Answer 3

Tetramer of globin chains, each non covalently bound to haem

All normal Hbs have 2 alpha and 2 non-alpha chains

Question 4

The gene for the alpha chain in foetal and adult Hb is found on which Chr?

Answer 4

Chr 16

Question 5

What is the composition of fetal Hb?

Answer 5

2 alpha chains

2 gamma chains

Question 6

The gene for the gamma chain found in fetal Hb is found on which Chr?

Answer 6

Chr 11

Question 7

What is the composition of the 2 types of adult Hb?

Answer 7

Hb-A2 = 2 alpha, 2 delta
Hb-A = 2 alpha, 2 beta

Question 8

The genes for the beta and delta chains found in adult Hb are found on which Chr?

Answer 8

Chr 11

Question 9

What 3 types of Hb are found in adults and what proportions does each make up?

Answer 9

Hb-A (2alpha2beta) = >95%

Hb-A2 (2alpha2delta) =

Question 10

What are the 2 classes of haemoglobinopathies?

Answer 10

1) Structural Hb variants - usually a single base substitution in globin gene leads to altered structure/function
2) Thalassemias (alpha or beta) - change in globin expression leads to reduced rate of normal globin chains, pathology is due to imbalance of alpha and beta chain production (free globin chains damage red cell membranes)

Question 11

Maternal testing for haemaglobinopathies is routinely offered to every mother in the UK, how are high risk pregnancies identified and what are they offered?

Answer 11

Mother tested and if positive father also tested, if both have traits then considered high risk
These people are offered pre natal diagnosis (chorionic villus biopsy and genetic testing at 8-12 weeks) with the option of termination

Question 12

Why does physiological anaemia occur in pregnancy?

Answer 12

• Plasma volume expands by 50%
• Red cell mass expands by 25%
• Haemodilution thus occurs, this is maximal at 32 weeks

Question 13

As physiological anaemia can occur, how is anaemia defined in pregnancy, what is the most common cause?

Answer 13

1st and 3rd trimester:

Question 14

What happens to the MCV in pregnancy?

Answer 14

Increases physiologically

Question 15

Why does the MCV increase physiologically in pregnancy?

Answer 15

• Pregnancy increases requirements for iron and usually results in considerable mobilisation of iron stores
• Pregnancy also increases folic acid requirements

Question 16

What kind of leukocytosis occurs in pregnancy and when does it start to rise?

Answer 16

Mainly neutrophilia (may also see a left shift in myelocytes/metamyelocytes)
Rises from the 2nd month to a peak range of around 9-15 in the 2nd-3rd trimester

Question 17

Gestational thrombocytopenia also occurs, when does the platelet count begin to fall and what is the biggest issue with gestational thrombocytopenia?

Answer 17

Platelet count falls after 20 weeks and thrombocytopenia is most marked in late pregnancy
There is no pathological significance for mother or fetus, it recovers rapidly following recovery but the main issue with it is differentiation from other causes

Question 18

What are the 5 haematological changes which occur in pregnancy?

Answer 18

1) Physiological anaemia
2) Rise in MCV
3) Leukocytosis - mainly neutrophilia
4) Gestational thrombocytopenia
5) Pro-coagulant state

Question 19

What are the 6 pregnancy associated causes of thrombocytopenia?

Answer 19

Production failure:
1) Severe folate deficiency
Consumptive:
2) Gestational 
3) Pre-eclampsia and HELLP syndrome
4) AFLP (acute fatty liver in pregnancy)
5) DIC 
6) TTP/ HUS - thrombotic thrombocytopenia purpura

Question 20

What are the 6 coincidental causes of thrombocytopenia in pregnancy?

Answer 20

Production failure:
1) Bone marrow infiltration/ hypoplasia
Consumptive:
2) ITP (primary/secondary) - Immune thrombocytopenic purpura 
3) Viral (HIV, EBV)
4) Sepsis
5) Type 2B vWD
6) Hypersplenism 
(Also congenital causes)

Question 21

For what 5 reasons is pregnancy a pro-thombotic state?

Answer 21

1) Evidence of platelet activation
2) Increase in many pro-coagulant factors
3) Reduction in some natural anti-coagulants
4) Reduction in fibrinolysis
5) Rise in markers thrombin generation

Question 22

How many weeks post partum do women recover from the pro thrombotic state of pregnancy?

Answer 22

6-8 weeks

Question 23

Worldwide distribution of Hb disorders mirrors what disease and what does this suggest?

Answer 23

Mirrors falciparum malaria - Hb disorders give you a survival advantage against malaria

Question 24

Structural Hb variants (Eg. sickle cell disease) can usually be detected using what procedure?

Answer 24

Detected by abnormal mobility on Haemaglobin electrophoresis - apply a charge and Hb seperates out, structurally abnormal Hb travel a different distance

Question 25

How does a blood film and Hb electrophoresis of thalassemias appear?

Answer 25

Normal Hb electrophoresis | Small pale red cells (hypochromic and microcytic) resembling iron deficiency on blood film

Question 26

What are the 4 main tests used to diagnose haemaglobinopathies?

Answer 26

1) FBC/ film 2) Hb electrophoresis 3) Isoelectric focussing 4) High performance liquid chromatography

Question 27

What is the molecular basis of the Hb abnormality in sickle cell disease?

Answer 27

Valine substituted for glutamine at position 6 of the beta globin gene

Question 28

What happens to RBCs in sickle cell disease?

Answer 28

Sickle Hb (Hb S) polymerises at low oxygen tensions to form long fibrils (tactoids) which distort the red cell membrane and produce the classical sickle shape

Question 29

Why does haemolytic anaemia occur in sickle cell disease?

Answer 29

The sickled cells have a short lifespan in the blood

Question 30

As well as the haemolytic component of sickle cell disease, what is the other problem?

Answer 30

Sickle cells block vessels and cause ischaemia, this results in pain and chronic recurrent obstruction can result in end organ damage. This was thought to be due to the fact sickled cells were inflexible but is now thought to be haemolysis-associated haemostatic activation - ie. haemolysis leads to endothelium expressing adhesion molecules and cells sticking to the endothelium

Question 31

What is meant by sickle cell trait?

Answer 31

Heterozygous Sickle cell disease ie. Hb A/S

Question 32

What is the blood count in sickle cell trait?

Answer 32

Normal blood count

Question 33

What does Hb electrophoresis show about the relative proportions of Hb S and A in sickle cell trait?

Answer 33

``` Hb-A = 55% Hb-S = 45% ```

Question 34

What are the clinical features of Sickle cell trait?

Answer 34

No problems except when extreme hypoxia or dehydration eg. very bad anaesthetia, flying unpressurised military air craft

Question 35

What is the difference between sickle cell trait and sickle cell disease?

Answer 35

Sickle cell disease = homozygous ie HbS/HbS | Sickle cell trait = heterozygous ie HbA/HbS

Question 36

What is the blood count in sickle cell disease?

Answer 36

Anaemia - Hb 6-8g/dL

Question 37

What does Hb electrophoresis show about the relative proportions of Hb S and Hb A in sickle cell disease?

Answer 37

Hb A = 0% | Hb S = >95%

Question 38

In which groups is sickle cell disease most common?

Answer 38

``` West Africans (1 in 60) and Afrocaribeans (1 in 200) (Around 12000 pts in UK compared to 5000 haemophiliacs) ```

Question 39

What are the 4 serious acute complications of sickle cell disease?

Answer 39

1) Vaso-occlusive crisis 2) Septicaemia 3) Aplastic crisis (if for any reason red cell production is interrupted for when people die of simple anaemia as sickle cells have a shorter life span) 4) Sequestration crisis (sickle cells block circulation and cause rapid organ enlargement)

Question 40

What 6 things make up a vaso-occlusive crisis?

Answer 40

1) Hands and feet - dactylitis 2) Chest syndrome 3) Abdominal pain - mesenteric 4) Bones - long bones, ribs, spine 5) Brain 6) Priapism (persistent and painful erection of the penis)

Question 41

What are the 9 chronic complications of sickle cell disease?

Answer 41

1) Hyposplenism - due to infarction and atrophy of the spleen 2) Renal disease 3) Avascular necrosis - femoral/ humeral heads 4) Leg ulcers 5) Osteomyelitis 6) Gall stones 7) Retinopathy 8) Cardiac complications 9) Respiratory complications

Question 42

What renal disease occurs in sickle cell disease?

Answer 42

Get medullar infarction with papillary necrosis Tubular damage so cant concentrate urine (bed wetting at night) Chronic renal failure requiring dialysis

Question 43

What medication is given to treat sickle cell disease from 6 months?

Answer 43

Penicillin

Question 44

What is the 3 treatments from a vaso-occlusive crisis?

Answer 44

1) Analgesia (usually opiates) 2) Hydration (to maintain red cell water) 3) Treatment of precipitants

Question 45

What is the treatment for priapism in sickle cell disease? 3

Answer 45

1) Education 2) Intracorporeal phenylephrine 3) Recurrent - etilefrine

Question 46

In what 3 ways is transfusion used as treatment in sickle cell disease?

Answer 46

1) Top up - splenic sequestration, aplastic crisis, pre-operative, acute chest crisis 2) Exchange - acute chest crisis, acute stroke, pre-operative 3) Regular exchange - primary and secondary stroke prevention

Question 47

Why is hydroxycarbamide used to treat sickle cell disease and in what situation?

Answer 47

``` Increases HbF (fetal Hb contains no beta chains which are abnormal in Hb S) Considered as treatment I f patient has >3 admissions with painful crisis in 12 months or 2 chest crisis ```

Question 48

How are the chronic complications of sickle cell disease treated? 5

Answer 48

1) Transcranial Doppler 2) AVN (avascular necrosis) - MRI and made need joint replacement 3) Cholecystectomy for symptomatic biliary disease 4) Renal disease - U&Es, BP, Ix haematuria 5) Ophthalmic - annual review

Question 49

Name the 1 curative treatment for sickle cell disease?

Answer 49

Bone marrow transplant (there is a mortality associated with it though)

Question 50

How can sickle cell disease be prevented?

Answer 50

Genetic counselling and pre natal diagnosis, avoiding precipitants

Question 51

What is the percentage mortality per annum associated with sickle cell disease in the uK?

Answer 51

0.5% per annum

Question 52

In addition to inheritance of 2 Hb S, how else can sickle cell disease be caused?

Answer 52

Co inheritance of betaS and another beta chain abnormality - eg. S/O-Arab (Severe), S/Beta-thalassemia

Question 53

What are the most common single gene disorders?

Answer 53

Thalassemias

Question 54

What are the 4 types of thalassemia?

Answer 54

``` alpha beta delta beta gamma delta beta Divided according to which globin chain is reduced ```

Question 55

How are the globin chains effected in thalassemia?

Answer 55

In some no globin chain is produced eg. alpha 0 | In some the globin chain is produced at a lower rate eg. alpha +

Question 56

Which types of haemoglobin are affected in alpha-thalassemia?

Answer 56

Both Hb A (adult Hb) and Hb F (fetal Hb) as they both contain 2 alpha chains

Question 57

What is Hb Barts and what condition does it cause?

Answer 57

Hb Barts = homozygous inheritance of alpha0 - ie no alpha chains produced Causes hydrops fetalis

Question 58

What is Hb H disease?

Answer 58

Also called alpha thalassemia intermedia - when only 1 of the four alpha genes is functioning, get a tetramer of beta chains

Question 59

What is alpha-trait, what are the clinical features?

Answer 59

Single gene defect or loss of 1 alpha gene from each parent (each parent has 2 alpha genes) - Hb will be normal and patient will be clinically well

Question 60

What are the 3 types of alpha thalassemia?

Answer 60

1) Hb Barts - hydrops fetalis 2) Hb H disease 3) Alpha-trait

Question 61

In which part of the world are the most serious forms of alpha-thalassemia found?

Answer 61

SE asia and some Mediterranean islands

Question 62

How many beta genes does each parental chromosome contain?

Answer 62

1

Question 63

What is beta-thalassemia?

Answer 63

Reduced rate of production of beta globin genes

Question 64

What causes the pathology in beta thalassemia?

Answer 64

Excess alpha chains due to reduced beta chains

Question 65

What is beta thalassemia minor?

Answer 65

Carriers of beta thalassemia - ie. have one normal and one faulty beta gene

Question 66

How does beta thalassemia minor present clinically?

Answer 66

Clinically normal

Question 67

What is beta-thalassemia major?

Answer 67

Homozygotes

Question 68

How does beta-thalassemia major present clinically?

Answer 68

Have severe disease which is usually fatal if untreated can produce little in any Hb-A and die of severe anaemia

Question 69

How does a blood film for beta thalassemia minor appear?

Answer 69

Blood picture resembles iron deficiency - small, pale red cells

Question 70

How is Hb level affected in beta thalassemia minor?

Answer 70

Total Hb level normal or only slightly reduced

Question 71

Are transfusions required in thalassemia intermedia?

Answer 71

No absolute requirement for regular transfusions in order to survive during the first 3-5 years of life

Question 72

What are the 5 possible complication of thalassemia intermedia?

Answer 72

1) Pulmonary hypertension2 2) Extramedullary haematopoiesis 3) Bone changes and osteoporosis - because of increased cell turnover 4) Endocrine and fertility 5) Leg ulcers

Question 73

How does beta-thalassemia major present?

Answer 73

Present with very severe anaemia at 1-2 years of age

Question 74

What is the appearance of a blood film in beta thalassemia major?

Answer 74

Very abnormal with lots of nucleated red cells

Question 75

What are the 2 main reasons for the clinical features of beta thalassemia?

Answer 75

1) Severe anaemia | 2) Attempt to make more red cells in bone marrow to compensate

Question 76

What are the 3 causes of the pathology in beta thalassemia major?

Answer 76

1) Alpha chain excess 2) Increased marrow activity 3) Enlarged and overactive spleen

Question 77

What does the alpha chain excess in beta thalassemia major lead to? 2

Answer 77

Ineffective erythropoiesis (red cells die in marrow) Shortened red cell lifespan (haemolysis) Both lead to anaemia

Question 78

What 3 things does the increased marrow activity in beta thalassemia major lead to?

Answer 78

1) Skeletal deformity, stunted growth 2) Increased iron absorption and organ damage (exacerbated by blood transfusion) 3) Protein malnutrition

Question 79

What 2 things does the enlarged and overactive spleen in beta thalassemia major lead to?

Answer 79

1) pooling of red cells (increased anaemia) | 2) Increased transfusion requirement

Question 80

Why do patients with beta thalassemia major have short stature and distorted limb growth?

Answer 80

Due to premature closure of epiphyses in long bones

Question 81

What is extra medullary haematopoiesis?

Answer 81

haematopoiesis occurring outside of the medulla of the bone

Question 82

Why do you get an enlarged liver and spleen in beta thalassemia major?

Answer 82

Due to extramedullary haematopoiesis

Question 83

What 3 things make up thalassaemic facies which can occur in beta-thalassemia major?

Answer 83

1) Maxillary hypertrophy 2) Abnormal dentition 3) Frontal bossing due to expanded bone marrow

Question 84

What is the x-ray appearance of the skull in beta thalassemia major and why?

Answer 84

'Hair on end' skull due to widening of diploic cavities by bone marrow expansion

Question 85

What is the main treatment for beta thalassemia major?

Answer 85

Transfusion - suppresses marrow red cell production and prevents skeletal deformity and liver/spleen enlargement 3-4 weekly transfusions from the first year of life

Question 86

What is the main complication of treating beta thalassemia with transfusions?

Answer 86

Each unit of red cells contains 200-250mg Fe and the body has no excretory mechanism for iron By 10-12 years of age there is severe iron overload and toxicity

Question 87

What 4 things does iron overload cause?

Answer 87

1) Gonads/hypothalamus - failure of puberty/ growth failure 2) Pancreas - diabetes 3) Heart - dilated cardiomyopathy and HF 4) Liver - cirrhosis

Question 88

Aswell as the major complication of iron overloading what are the 2 other complications of using transfusion to treat beta thalassemia major?

Answer 88

1) Transmission of infection | 2) Allo-immunisation - body makes Ab against proteins on red cell and its gets harder and harder to find matching blood

Question 89

What therapy is used to prevent death from iron overload in beta thalassemia major patients?

Answer 89

Iron chelation therapy which promotes excretion of iron in urine and faeces

Question 90

What are the 2 options for iron chelation therapy?

Answer 90

1) Desferrioxamine: given via SC infusion | 2) New oral iron chelators - include deferiprone and deferasirox

Question 91

In what 3 ways is chelation monitored in beta thalassemia?

Answer 91

1) Ferritin (acute phase) 2) Liver biopsy 3) MRI

Question 92

Why is the risk of infection increased in beta thalassemia major? 5

Answer 92

1) Decreased CD4/8 ratio 2) Defective neutrophil chemotaxis 3) Increased virulence with excess iron 4) Line infections 5) Transfusion transmitted infection

Question 93

How are endocrine complications in beta-thalassemia major managed?

Answer 93

1) Monitoring growth and development 2) Screening for glucose intolerance 3) Screening for hypothyroidism 4) Screening for hypoparathyroidism

Question 94

In treating beta--thalassemia major what 6 things need to be monitored?

Answer 94

1) Chelation 2) Bone 3) Liver disease 4) Infection risk 5) Fertility 6) Endocrine complications

Question 95

What is the current life expectancy in beta thalassemia major?

Answer 95

Patients now live into their 4th and 5th decades of life although there are significant quality of life issues

Question 96

Which 2 kind of treatments are being development for more effective treatment of beta thalassemia?

Answer 96

1) Bone marrow transplantation | 2) Gene therapy

Question 97

In which 3 ways can beta thalassemia major be prevented?

Answer 97

1) Antenatal screening 2) Neonatal screening 3) Genetic counselling