Week 1- Introduction to anaemia and microcytic anaemias

Question 1

What is anaemia?

Answer 1

Reduced total red cell mass.

Question 2

What markers are used to measure anaemia?

Answer 2

Haemoglobin and haematocrit are used as surrogate markers. However this assumes that haemoglobin mass equals red cell mass. Also assumes that there is a steady state in blood volume (haematocrit measures the proportion of red cells in total blood vol)

Question 3

What should the adult male haemoglobin be?

Answer 3

<130g/L

Question 4

What should the adult female haemoglobin be?

Answer 4

<120g/L

Question 5

What should the adult male haematocrit be?

Answer 5

0.38-0.52

Question 6

What should the adult female haematocrit be?

Answer 6

0.37-0.47

Question 7

Where does red cell production take place?

Answer 7

Bone marrow

Question 8

How would you measure haemoglobin using a spectrophotometric method?

Answer 8

Burst (lyse) the red cells to create a Hb solution
Stabilise the Hb molecules (cyan-met Hb)
Measure the optical density (this is how red the cells are)
Optical density is proportional to the density (Beers Law)
Hb concentration worked out using known reference standard cyan-met Hb.

Question 9

How do you measure haematocrit? How do modern machines differ?

Answer 9

Ratio of the blood that is red cells if the blood was left to settle. Modern machines now by adding a calculated volume of the red cells it counts.

Question 10

In what cases are haematocrit or haemoglobin not good markers of anaemia?

Answer 10

When someone becomes acutely unwell and loses blood, the total volume of blood reduces however the haemoglobin concentration will remain the same and so will the percentage of blood that is red cells.
Also in haemodilution. Plasma volume expands in pregnancy and therefore the haemoglobin concentration is reduced.

Question 11

What is a reticulocyte?

Answer 11

Red cells that have just left the bone marrow, they are larger than normal red cells. It still has some traces of dark blue/purple RNA.

Question 12

How does the body respond to anaemia?

Answer 12

Reticulocytosis (cytosine means excess (along with aphelia)). This is increased red cell production.

Question 13

How long does the process of up regulation of reticulocyte formation take in response to anaemia?

Answer 13

A few days.

Question 14

What do automated analysers measure and calculate?

Answer 14

They measure

• Hb conc
• Number of red cells
• Size of red cells

They calculate

• Haematocrit
• Mean cell haemoglobin (from number of red cells and Hb conc)
• Mean cell haemoglobin conc (this ensures all parameters are working correctly).

Question 15

What parameters does a full blood count look for?

Answer 15

HGB- haemoglobin
RBC- red blood cell
HCT- haematocrit 
MCV- mean cell volume (how big the cells are)
MCH- mean cell haemoglobin
MCC- mean cell haemoglobin concentration
RET- reticulocyte count 
And also white cells like neutrophils, lymphocytes, basophils, eosinophils.

Question 16

What does a reticulocyte count allow you to assess?

Answer 16

The marrow response to the problem at hand.

Question 17

What will a blood film allow you to look at?

Answer 17

The cellular morphology

Question 18

How is anaemia classified?

Answer 18

By morphological characteristics or pathophysiology

Question 19

How is pathophysiological classification of anaemia split?

Answer 19

Into decreased production (low reticulocyte count) or increased destruction (high reticulocyte count).

Question 20

What are the two causes of decreased production in anaemia?

Answer 20

Hypoproliferative (reduced amount of erythropoiesis)

Maturation abnormality- erythropoiesis present but ineffective. This could be due to cytoplasmic (impaired haemoglobin generation) or nuclear defects (impaired cell division)

Question 21

What are the two causes of increased destruction in anaemia?

Answer 21

Problems with bleeding or haemolysis (premature red cell destruction)

Question 22

How can mean cell volume be used to classify anaemia?

Answer 22

Mean cell volume is basically how big the cell is. If the cell MCV is low (microcytic) there is likely to be a problem with haemoglobuilsation (haemoglobin production) making the cell smaller.
If MCV is high (macrocytic)- usually a problem with cell division.

Question 23

Where does haemoglobin synthesis occur?

What do defects in its production cause?

Answer 23

In the cytoplasm of red blood cells.

Defects in production of haemoglobin result in a small cell.

Question 24

What do you need to make Hb?

Answer 24

Globin (2 alpha chains, 2 beta chains)
Iron
Porphyrin ring

Question 25

What does a shortage in any one of the building blocks of haemoglobin result in?

Answer 25

Small cells as they can’t make as much haemoglobin.

Question 26

What do the RBC’s in microcytic anaemia look like?

Answer 26

Microcytic (small)

Hypochromic (lacking in colour)

Question 27

If you have a microcytic, hypo chromic RBC, where is the defect likely to be?

Answer 27

Well the defect is in haemoglobulinsation which is a CYTOPLASMIC defect.

Question 28

What are the causes of microcytic, hypo chromic anaemias?

Answer 28

Haem deficiency- lack of iron, chronic disease causing normal body iron but lack of available iron,
Porphyrin ring problems- all very rare. Lead poisoning or pyridoxine responsive anaemias.

Or global deficiency- thalassaemia

Question 29

Do we absorb a lot of iron from our diet?

Answer 29

No, iron isn’t really lost so only 1mg is absorbed a day. Women lose more iron than men do.

Question 30

Where will iron be found in the body?

Answer 30

Mostly found in the haemoglobin.

But also can be found in the nursing macrophages in the bone marrow, erthroid marrow and liver stores.

Question 31

What form is iron stored in?

Answer 31

As ferritin.

Question 32

What is circulating iron bound too?

Answer 32

Transferrin.

Question 33

What is the job of bone marrow macrophages?

Answer 33

They ‘feed’ the iron to red cell precursors.

Question 34

What available tests can assess how much iron is present?

Answer 34

Functional iron- iron in Hb
Transported iron- serum iron, transferrin, transferrin saturations
Stored iron-serum ferritin

Question 35

Specifically, what does transferrin do?

Answer 35

Transports iron from donor sites (macrophages, intestinal cells, hepatocytes) to tissues expressing transferrin receptors (especially erythroid marrow)

Question 36

When will % saturation of transferrin be reduced?

Answer 36

Reduced in iron deficiency and in anaemia of chronic diseases,

Question 37

When will % saturation of transferrin be increased?

Answer 37

Increased in genetic haemachromatosis.

Question 38

Describe the structure of ferritin?

Answer 38

Large intracellular protein. Its a spherical shape and stores up to 4000 ferric ions.

Question 39

Although ferritin is the storage form of iron, where else can it be found and what is this indicative of?

Answer 39

Can be found in the serum. It reflects intracellular ferritin synthesis.

Question 40

What is serum ferritin a good measure of?

Answer 40

Good indirect measure of storage iron.

Question 41

What does low ferritin mean?

Answer 41

Iron deficiency

Question 42

NOTE on ferritin

Answer 42

If you get an infection and need to get rid of it, you want to make your body an unfavourable environment. This means getting rid of iron. Therefore your ferritin will increase to mop up the iron. This is acutely.

Question 43

How can iron deficiency be confirmed?

Answer 43

Confirmed by a combination of anaemia (decreased functional (Hb) iron) and reduced storage iron (low serum ferritin)

Question 44

What causes iron deficiency?

Answer 44

Not eating enough- women in pregnancy (relative deficiency) or vegetarian diets (absolute deficiency)

Losing too much- blood loss

Not absorbing enough- malabsorption

• coeliac disease
• achlorhydria

Question 45

Name some causes of chronic blood loss?

Answer 45

Menorrhagia
GI causes- tumours, ulcers, NSAIDs
Haematuria

Question 46

How much iron is lost a month during menstruation?

Answer 46

15mg for about 30mls (normal women release this) of blood.

Question 47

How much iron is lost in heavy menstrual bleeding?

Answer 47

Heavy menstrual bleeding can be about 60mls a month therefore a loss of 30mg of iron.

Question 48

What are the consequences of having iron inbalances?

Answer 48

Exhaustion of iron stores
Iron deficient erythropoiesis (falling MCV)
Microcytic anaemia
Epithelial changes- to the skin, koilonychia.

Question 49

NOTE

Answer 49

Iron deficiency anaemia is a symptom not a diagnosis. Iron supplements may relieve this however will not tackle the underlying issue. Investigations are essential.