Haematology: Haemolytic Anaemias

Question 1

What is haemolytic anaemia?

Answer 1

• Anaemia due to shortened red blood cell survival

Question 2

Briefly describe the red blood cell cycle

Answer 2

• Mature red blood cells are produce in the bone marrow
• They then travel from bone marrow into the circulation (lose their nucleus on the way out)
• They stay in circulation for about 120 days
• In circulation they acquire chnages which are recognised by macrophages in liver/spleen that cause them to degrade RBCs after 120 days

Question 3

What proteins/enzymes are required in the production of red blood cells?

Answer 3

• Iron
• B12/folate
• Globin chains
• Protoporphyrins

Question 4

What are the main components of a mature red blood cell?

Answer 4

• Plasma membrane - biconcave disc
• Haemoglobin

Question 5

What are the 2 main metabolic pathways of a mature red blood cell?

Answer 5

• Glycolytic pathway
• Hexose-monophosphate shunt - parallel to glycolytic pathway (produces NADPH, pentoses and ribose-5 phosphate)

Question 6

What is haemolysis?

Answer 6

• The rupture or destruction of of red blood cells leading to decreased red cell survival

Question 7

Describe the body’s response to haemolysis?

Answer 7

• Bone marrow increases red blood cell production
• This leads to increased levels of reticulocytes in the circulation - this is called reticulocytosis

Question 8

What is compensated haemolysis?

Answer 8

• Occurs when red blood cell production is able to compensate for decreased red blood cell lifespan due to haemolysis
• Results in haemoglobin level remaining normal

Question 9

What is incompletely compensated haemolysis?

Answer 9

• Occurs when red blood cell production is unable to compensate for decreased red bllod cell lifespan due to haemolysis
• Results in reduced haemoglobin level

Question 10

Name some of the main symptoms of haemolytic anaemias

Answer 10

• Jaundice - Yellowing of skin, whites of eyes and mucous membranes
• Pallor/fatigue
• Splenomegaly - enlargement of the spleen
• Dark urine

Question 11

Why do haemolytic anaemias cause jaundice?

Answer 11

• Excessive red blood cell break down leads to excessive levels of bilirubin in circulation
• This leads to yellowing of skin etc. seen in jaundice

Question 12

They are 2 types of crises associated with haemolytic anaemia, Explain these 2 crises

Answer 12

• Haemolytic crisis - Occurs when there’s an increased level of haemolysis due to an infection leading to increased anaemia and jaundice
• Aplastic crisis - Occurs when person is infected with parvovirus which causes a rapid decrease in Hb levels leading to anaemia. Reticulocytopenia also occurs as parvovirus affects erythroblasts, and therefore eryhtropoiesis, in bone marrow.

Question 13

Name some symptoms of chronic haemolytic anaemias

Answer 13

• Pigment gallstones - due to breakdown of excess bilirubin
• Splenomegaly
• Leg ulcers - due to free Hb collects and removes nitric oxide
• Folate deficiency - due to increased use

Question 14

Describe the laboratory findings/results of tests for haemolytic anaemia

Answer 14

• Normal/decreased haemoglobin
• Increased reticulocyte count
• Increased unconjugated bilirubin
• Increased LDH (lactate dehydrogenase) - released wehn red cells are broken down
• Low serum haptoglobin - protein that binds free haemoglobin
• Increased urobilinogen
• Increased urinary haemosiderin
• Abnormal blood film

Question 15

What are some of the cahracteristics of the blood film of someone with a haemolytic anaemia?

Answer 15

• Presence of reticulocytes
• Polychromasia - high levels of immature red blood cells
• Presence of nucleated red blood cells
• Poikilocytes - abnormally shaped red blood cells

Question 16

What are the different ways that haemolytic anaemias can be classified?

Answer 16

• Classification based on inheritance:
  
  • Inherited
  • Acquired
• Classification based on site of RBC destruction:
  
  • Intravascular
  • Extravascular
• Classification beased on origin of RBC damage:
  
  • Intrinsic
  • Extrinsic

Question 17

Name some congenital/acquired disorders that lead to heamolytic anaemia

Answer 17

• Membrane disorders:
  
  • Spherocytosis
  • Elliptocytosis
• Enzyme disorders:
  
  • Glucose-6-phosphate dehydrogensae (G6PD) deficiency
  • Pyruvate Kinase deficiency
• Haemoglobin disorders:
  
  • Sickle Cell Anaemia
  • Thalassaemias

Question 18

Name some acquired causes of haemolytic anaemias

Answer 18

• Autoimmune causes
• Drugs
• Mechanical - leaky heart valves
• Microangiopathic - severe hypertension
• Infections - malaria

Answer 19

Question 20

Describe process of intravascular haemolysis

Answer 20

• Red blood cell broken down in circulation causing it to release its haemoglobin, iron and bilirubin

Question 21

What conditions does intravascular haemolysis lead to?

Answer 21

• Haemoglobinaemia - Excess free haemoglobin in blood
• Methaemalbuminaemia - Breakdown of haemoglobin forms haem and methaem which binds to albumin to form methemalbumin
• Haemoglobinuria - Excess haemoglobin in urine
• Haemosiderinuria - Haemosiderin in urine

Question 22

There are two main types of red cell membrane disorder that can cause haemolytic anaemias. Name these 2 types of red cell membrane disorder and give examples of proteins that can be affected by them.

Answer 22

• Defects in proteins involved vertical interaction:
  
  • Spectrin
  • Band 3
  • Protein 4.2
  • Ankyrin
• Defects in proteins involved in horizontal interaction:
  
  • Protein 4.1
  • Glycophorin C
  • Spectrin – Can cause hereditary pyropoikilocytosis (HPP)

Question 23

What condition is usually caused by disorders affecting vertical interaction?

Answer 23

• Hereditary spherocytosis

Question 24

What condition is usually caused by disorders affecting horizontal interaction?

Answer 24

• Hereditary elliptocytosis

Question 25

What are some of the main characteristics of hereditary spherocytosis?

Answer 25

• Most common hereditary haemolytic anemia
• Shows autosomal dominant inheritance
• Bone marrow makes biconcaves RBCs but they lose membrane as they go around circulation causing them to become spherical

Question 26

What are some of the clinical feautures of hereditary spherocytosis?

Answer 26

• Can be asymptomatic to severe haemolysis - shows no symptoms of haemolysis
• Neonatal jaundice - Bilirubin in babies can cross blood-brain barrier and cause brain damage
• Jaundice
• Splenomegaly
• Pigment gallstones
• Reduced eosin-5-maleimide (EMA) binding – binds to band 3, a membrane protein.

Question 27

How can you manage/treat hereditary spherocytosis?

Answer 27

• Monitor condition
• Folic acid supplemements
• Blood transfusion
• Splenectomy - removal of spleen

Question 28

Glucose-6-phosphate dehydrogenase is involved in the hexose monophpsphate pthway/shunt. What is the function of this pathway?

Answer 28

• Produces NADPH as well as reduced glutathione (GSH)
• Reduced glutathione is an anti-oxidant and so one of the functions of the pathway is to protect cell from effects of oxidative stress

Question 29

Glucose-6-phosphate dehydrogenase deficiency means cells are less able to protect against effects of oxidative stress. What are some of the effects of oxidative stress on a red blood cell?

Answer 29

• If oxidant radicals come into contact with RBCs they will cause oxidation of Haemoglobin
• This causes haemoglobin to denature and aggregate
• This forms Heinz bodies which bind to the RBC membrane
• This causes membrane proteins to also become oxidised – leads to reduced RBC deformability

Question 30

What are some characterisitics of glucose-6-phosphate deficiency?

Answer 30

• Hereditary, X-linked disorder
• Common in African, Asian, Mediterranean and Middle Eastern populations
• Two types: Type A (mild) and Type B (severe)
• Clinical features range from asymptomatic to acute episodes to chronic haemolysis (rare)

Question 31

Name some things that can cause oxidation leading to oxidative haemolysis in patients with glucose-6-phosphate deficiency

Answer 31

• Infections
• Fava/ broad beans
• Drugs - e.g. Dapsone, Nitrofurantoin and Ciprofloxacin

Question 32

What characetristics would a blood film of somebody with glucose-6-phosphate deficiency have?

Answer 32

• Bite cells
• Blister cells & ghost cells
• Heinz bodies - RBCs with oxidised haemoglobin (identified using methylene blue stain)

Question 33

What is the function of pyruvate kinase?

Answer 33

• Catalyses transfer of phosphate group from phosphoenolpyruvate (PEP) to adenosine diphosphate (ADP) to form pyruvate and ATP.

Question 34

What are some characteristics of pyruvate kinase deficiency?

Answer 34

• Autosomal recessive
• Causes chronic haemolytic anaemia
• Condition can be improved via splenectomy

Question 35

What characteristics would a blood film of somebody with pyruvate kinase deficiency have?

Answer 35

• Ecchinocytes
• May also see polychromasia

Question 36

Briefly describe structure of haemoglobin

Answer 36

• Ferrous iron (Fe2+) and Protoporphyrin IX (which binds iron) form haem complex
• Also contains Globin proteins

Question 37

What are the 3 types of haemoglobin?

Answer 37

• HbA - α2β2
• HbA₂ - α2δ2 (makes up 2-3.5% of adult Hb)
• HbF - α2γ2

Question 38

What are the different types of Haemoglobinopathies (inherited genetic conditions affecting the haemoglobin)?

Answer 38

• Thalassaemias - Increased/ decreased production of a globin chain (structurally normal)
• Variant haemoglobins - Production of a structurally abnormal globin chain e.g. sickle cell anaemia

Question 39

What is Thalassaemia and what problems does it cause?

Answer 39

• Disorder in which there’s imbalanced alpha and beta chain production
• Excess unpaired globin chains are unstable which causes a number of problems:
  
  • They precipitate and damage RBC and their precursors
  • They lead to Ineffective erythropoiesis in bone marrow
  • They cause Haemolytic anaemia

Question 40

What is Beta thalassaemia?

Answer 40

• Form of thalassaemia caused by caused by reduced or absent synthesis of the betachains of hemoglobin
• Autsomal recessive disorder so a person can have the beta thalassaemia trait or can have the disease (beta thalassaemia major).

Question 41

What are some characteristics of the beta thalassaemia trait?

Answer 41

• Asymptomatic
• Causes microcytic hypochromic anaemia
• Low Hb, MCV, MCH
• Increased RBC
• HbA₂ increased

Question 42

Children with beta thalassaemia are transfusion dependent within 1st year of life. What problems occur if they don’t have a blood transfusion?

Answer 42

• Failure to thrive
• Progressive hepatosplenomegaly - swelling of liver and spleen
• Bone marrow expansion – skeletal abnormalities
• Death in 1st 5 years of life from anaemia

Question 43

What are some of the side effects of a blood transfusion for children with beta thalassaemia?

Answer 43

• Iron overload - this can lead to:
  
  • Endocrinopathies
  • Heart failure
  • Liver cirrhosis

Question 44

What is the mutation that causes sickle cell disease and how does it lead to sickle cell diease?

Answer 44

• Point mutation in beta globin gene that causes glutamate to be converted into valine at position 7
• This causes production of insoluble haemoglobin which polymerises when deoxygenated
• This leads to sickle shaped RBCs

Question 45

What are some of the acute complications associated with sickle cell disease?

Answer 45

• Stroke: ischaemic & haemorrhagic
• Splenic sequestration - sickled red blood cells become trapped in the spleen acusing it to enlarge
• Aplastic crisis
• Chest syndrome
• Leg ulcers

Question 46

What are some of the chronic complications associated with sickle cell disease?

Answer 46

• Chronic lung disease (bronchiectasis)
• Chronic renal failure
• Pulmonary hypertension
• Delayed puberty

Question 47

What are some clinical feautures of sickle cell disease?

Answer 47

• Painful crises
• Aplastic crises
• Infections

Question 48

What laboratory results would you expect someone with sickle cell disease to have?

Answer 48

• Anaemia (Hb often 65-85)
• Reticulocytosis
• Increased no. of nucleated red blood cells (NRBC)
• Raised bilirubin
• Low creatinine

Question 49

What diagnostic tests can be used to confirm diagnosis of sickle cell anaemia?

Answer 49

• Solubility test - Expose blood to reducing agent and if haemoglobin precipitates then person has HbS
• Electrophoresis

Question 50

What are the 2 types of acquired haemolytic anaemia?

Answer 50

• Anaemia due to immune haemolysis
• Anaemia due to non-immune haemolysis

Question 51

What are the 2 types of immune haemolysis?

Answer 51

• Autoimmune
• Alloimmune

Question 52

What are some causes of autoimmune haemolysis?

Answer 52

• Idiopathic
• Drug-mediated
• Cancer associated - e.g. some lymphoproliferative disorders such as chronic lymphocytic anaemia

Question 53

What are some causes of alloimmune haemolysis?

Answer 53

• Transplacental transfer - Haemolytic disease of the newborn:
• Transfusion related - Acute or delayed haemolytic transfusion reaction

Question 54

What are some causes of non-immune acquired haemolysis?

Answer 54

• Paroxysmal nocturnal haemoglobinuria
• Fragmentation haemolysis - Can be mechanical or microangiopathic
• Severe burns
• Some infections - e.g. malaria