Red Cells 2: acquired anaemias

Question 1

Definition of Anaemia

Answer 1

Low haemoglobin

However this has to be below the normal range for their age / sex

Question 2

What happens to your Hb as you get older?

Answer 2

There is a drop in your Hb

Question 3

Reference ranges for Hb in M and F

Answer 3

• Male 12-70 (140-180)
• Male >70 (116-156)
• Female 12-70 (120-160)
• Female >70 (108-143)

Lower levels of Hb in menstruating females due to drop in iron

Question 4

General symptoms/features of anaemia (caused by reduced O2 delivery to tissues)

Answer 4

• Tiredness/pallor
• Breathlessness
• Swelling of ankles
• Dizziness – on standing up too quickly etc
• Chest pain – myocardial ischaemia

These depend on age, speed of onset and Hb level

Question 5

Common underlying causes of anaemia

Answer 5

• If evidence of bleeding
  
  • Menorrhagia
  • GI bleeding - Dyspepsia
  • PR bleeding
• Symptoms of malabsorption - GI symptoms - unable to absorb things necessary to make blood i.e B12
  
  • Diarrhoea
  • Weight loss
• Jaundice - haemolysing
• Splenomegaly/lymphadenopathy - haemotolgical condition

Question 6

Anaemia pathophysiology

Answer 6

Question 7

Understanding blood count results

Answer 7

When you get a blood count you get Hb level and a whole lot of indices telling you all about the size, number and shape of the RBCs. The most important ones are:

• MCH = mean cell haemoglobin (amount of Hb in the cells)
• MCV = mean cell volume (cell size)

From this you can give a morphological description of anaemia – and a clue as to cause! Machines cannot tell you shape of blood but it can tell you whether there is an abnormal average size and amount of Hb in cells even if they are misshapen under microscope

Question 8

How do we describe anaemias? (3)

Answer 8

• Hypochromic microcytic anaemia – small, pale cells
• Normochromic normocytic – normal size, normal colour
• Macrocytic anaemia – big cells and are usually pale (not hyperchromic – as this would mean they have lots of Hb)

Question 9

Once you have looked at the blood results and find out it is hypochromic microcytic anaemia. What test will you do next to confrim this?

Answer 9

Serum ferritin test

Iron deficiency is the commonest cause of hypochromic microcytic and ferritin is a measure of the body’s iron stores.

• If your serum ferritin is low = iron deficiency
• If your serum ferritin is normal or increased then there can be other things going on. It can go up if you have inflammation or liver damage.
  
  • Thalassaemia has normal ferritin but small cells. They can develop iron deficiency too from GI bleed etc.
  • Secondary anaemia

Question 10

Once you have looked at the blood results and find out it is normochromic normocytic anaemia. There are lots of causes of this so what test will you do next to investigate it further / confrim this?

Answer 10

A reticulocyte count

This can tell you if your bone marrow is working or not.

Question 11

Why might you have a normal or low reticulocyte count?

Answer 11

Low:

• Secondary anaemia / anaemia of chronic disease - renal impairment - kidneys don’t make erythropoietin (EPO) which tells bone marrow to make RBCs
• Marrow infiltration - aplastic anaemia - cells appear normal but just aren’t enough of them - can be caused by malignancy etc

Question 12

Why might you have a raised reticulocyte count in Normochromic normocytic anaemia?

Answer 12

High:

• In acute blood loss - it takes a long period of bleeding to empy body’s iron stores so in acute blood loss you just become anaemic but you wouldn’t be iron deficient by then because your body would still have iron stores. In acute blood loss you get normochromic anaemia and body responds by making reticulocytes to compensate for loss of RBCs
• Haemolysis - increased breakdown of cells => reduced Hb => compensation by bone marrow => increased retic count

Question 13

What is Secondary anaemia / anaemia of chronic disease?

Answer 13

Inability to use iron efficiently - increased hepcidin in inflammation blocks ferroportin and so Fe is stuck in places where it shouldn’t be and not being used efficiently for erythropoeisis. Your ferritin stores may be normal or even raised if underlying inflammatory process as Fe is an acute phase reactant.

• 70% normochromic normocytic
• Very chronic secondary anaemias where there is a lot of inflammation causes abnormal Fe utilisation (remember it plas important role in protecting body from microorganisms) that cells become microcytic = 30% hypochromic microcytic

Question 14

Once you have looked at the blood results and find out it is macrocytic anaemia. What tests will you do next to investigate it further / confrim this?

Answer 14

• B12/folate
• Bone marrow

The commonest cause of a macrocytic anaemia is B12 or folate deficiency. If your B12/folate results are normal then you are looking at a problem with the bone marrow such as malignancies

Question 15

Look

Answer 15

There is no pathway for excretion of excess iron = you need iron chelation therapy/drugs

Question 16

What forms of iron do you get from your diet?

Answer 16

• Haem iron - get this from blood - meat sources - more readily absorbed than non-haem iron
• Non-haem iron - dietary sources

There are different ways of absorbing these types of iron

Question 17

Key proteins in iron metabolism

Answer 17

Ferroprotin - carries Fe across basement membranes to all the cells it needs around the body

Transferrin - binds Fe and carries it through the circulation - transfers it to different organs

Ferritin - iron stores in liver and a little in bone marrow

Question 18

What is Hepcidin and why is it important?

Answer 18

• Hepcidin = hormone that is made in the liver
• It’s produced when you have sufficient amount of Fe for haematopoeisis
• Hepcidin binds to ferroportin and inactivates it, stopping you from absorbing any more Iron and stops it being mobilised from ferritin stores
• You excrete any more iron that comes in through the diet by just not absorbing it
• This is dynamic process as your iron in diet changes etc
• It is also made in the context of inflammation as iron levels increase in inflammation

Question 19

What is the commonest cause of anaemia worldwide?

Answer 19

Iron deficiency - this is not a diagnosis and you must find out the cause of their iron deficiency

Question 20

Common causes specifically for Iron deficiency anaemia?

Answer 20

• Dyspepsia - GI bleeding
• Other bleeding, eg menorrhagia
• Diet (NB children and elderly)
• Increased requirement - pregnancy

Question 21

Management of iron deficiency

Answer 21

Correct the deficiency

• Oral iron usually sufficient
• IV iron if intolerant of oral
• Blood transfusion is rarely indicated

Correct the cause!

• Diet
• Ulcer therapy
• Gynae interventions
• Surgery - if they have a tumour

Question 22

Extravascular vs intravascular haemolysis

Answer 22

Intravascular haemolysis - is not normal - RBCs burst within your circulation resulting in free Hb which is toxic to the kidneys. You also get free iron in the circulation which produces free radicals as a result. Examples include SCD or G6PD deficiency (inherited)

Extravascular haemolysis - happens in the reticuloendothelial system where RBCs are being removed - this is a normal process of RBC breakdown that keeps our bilirubin levels at a normal level but this can increase in some forms of haemolysis. If RBC is detected as abnormal shape for example in hereditary spherocytosis the liver/spleen/macrophages will remove those faster than normal

Question 23

Acquired reasons for Haemolysis?

Answer 23

Acquired extravascular haemolysis:

• Autoimmune haemolytic anaemia - exaggerated removal of RBCs from the circulation

Acquired intravascular haemolysis (usually happens in sick people):

• Mechanical e.g artificial valve that is leaking - RBCs get smashed apart as they pass over the valve
• Severe infection / Disseminated intravascular coagulation
• Pre-eclampsia (PET) - hypertension / Hemolytic uremic syndrome / TTP

Question 24

If you suspect an auto-immune haemolysis which test should you do that will confirm this?

Answer 24

DAT - direct antiglobulin test - a +ve DAT test implies there is an autoimmune basis for the haemolysis

How? The DAT test detects either antibody or complement on the surface of the red blood cell membrane.

• Involves a blood test - the patient’s own plasma and unbound antibodies are removed from the RBCs and then incubated with an anti-antibody = IgG (“Coombs reagent”).
• If the patient has antibodies on their RBCs against their own RBCs or maybe someone else’s (transufsion reaction) then the reagent will cause the red cells to cross-link and agglutinate = direct Coombs test is positive.
• +ve DAT = antibodies against own RBCs are present
• -ve DAT = its not immune mediated

Question 25

What happens in auto-immune haemolysis?

Answer 25

The spleen recognises the antibody on the surface of the RBC and removes the antibody but by doing that it rips away part of the cell membrane damaging it. Cells sphere when they are damaged - so spherocytes are seen in immune haemolysis too (dark, spherical cells) - warm antibodies cause haemolysis in the patient - spherocytes

Question 26

So what tests do you need to do to determine whether your patient is haemolysing or not?

Answer 26

• FBC, reticulocyte count (would be high), blood film
• Serum bilirubin (conjugated/unconjugated - high), LDH
• Serum haptoglobin - protein made in the liver that mops up free Hb in the circulation - if you’re haemolysing your haptoglobin will be low

Question 27

Haemolytic anaemia management

Answer 27

• Support the bone marrow
  
  • Increased folate requirement
• Correct the cause:
  
  • Immunosuppression if autoimmune - steroids or treat the trigger
  • Remove site of red cell destruction - splenectomy
  • Treat sepsis, leaky prosthetic valve, malignancy if intravascular
• Consider transfusion

Question 28

What is the commonest cause of macrocytic anaemia?

Answer 28

B12 or folate deficiency

Question 29

If a patient is B12 or folate deficient what do you call it?

Answer 29

Megaloblastic anaemia

Question 30

If a patient’s folate / B12 levels are normal then what is it called?

Answer 30

Non-megaloblastic anaemia

You need to then think what could be causing that such as:

• Drugs
• Marrow infiltration - problem with bone marrow?

Question 31

Causes of B12 and folate deficiencies?

Answer 31

B12 deficiency

• Pernicious anaemia
• Gastric/ileal disease

Folate deficiency - (more common)

• Dietary
• Increased folate requirements (haemolysis)
• GI pathology (eg.coeliac disease)

Body has B12 stores so less likely to become acutely deficient in it.

Question 32

Which cells in the stomach produce instrinsic factor?

Answer 32

Gastric parietal cells

Question 33

Where is the B12/intrinsic factor complex absorbed into the circulation?

Answer 33

In the distal part of the ileum - specific IF receptors here

Question 34

What binds B12 in the portal circulation in order to transport it to bone marrow and other tissues?

Answer 34

Transcobalamin II

Question 35

What is the commonest cause of B12/folate deficiency?

Answer 35

Pernicious anaemia

• It is an Autoimmune disease
• Antibodies against intrinsic factors which mean you can’t absorb dietary B12
• It takes years to develop

Question 36

How do you treat megaloblastic anaemia?

Answer 36

Replace vitamins:

• B12 IM injection if it is due to malabsorption i.e gastrectomy etc can be oral if dietary reasons
• Oral folate replacement

Question 37

Other causes of macrocytosis

Answer 37

• Alcohol
• Drugs i.e methotrexate
• Disordered liver function
• Hypothyroidism
• Myelodysplasia - myeloid cancers