Micro and Macrocytic anaemia

Question 1

Anaemia

Answer 1

A reduction of Haemoglobin concentration of the blood below the normal range
for age and sex.

Question 2

what is the reference ranges for males (MCHC)

Answer 2

13.3-16.7 g/dL

Question 3

what are the reference ranges for females (MCHC)

Answer 3

11.8 – 14.8 g/dL

Question 4

Causes of anaemia

Answer 4

• decrease in RBC production
  -increase in RC destruction
• blood loss

Question 5

what is the reference range for RBC level (haematocrit (HCT)) (x10 ^12/L)

Answer 5

males 4.6 - 6.5
female 3.9 -5.6

Question 6

average mean cell volume in (fL)

Answer 6

80-95 femtoliters

Question 7

average mean cell haemoglobin(pg)

Answer 7

27 -34 picograms

Question 8

how can FBC used to classify anaemia

Answer 8

-Leucocyte and platelet counts help distinguish between pure anaemia
and ‘pancytopenia’(defect of marrow)
- A high reticulocyte count is indicative of anaemia(to meet high O2 demand)

Question 9

normal reticulocyte average

Answer 9

x< 0.5 - 1.5%

Question 10

abnormal reticulocyte range

Answer 10

x>2.5%

Question 11

what are the reference range for Microcytic, hypochromic
anaemia

Answer 11

MCV <80fl, MCH <27pg

Question 12

What diseases are linked to Microcytic, hypochromic
anaemia

Answer 12

Iron deficiency Thalassaemia
Lead poisoning

Question 13

what are the reference ranges for Normocytic, and normochromic?

Answer 13

MCV 80-95fl, MCH ≥27pg

Question 14

What diseases are linked to having Normocytic, and normochromic cells?

Answer 14

Haemolytic anaemia
Chronic anaemia
Renal disease

Question 15

what are the reference ranges for macrocytic anaemia?

Answer 15

MCV >95fl

Question 16

What deficiency is linked to macrocytic anaemia

Answer 16

Vitamin B12 or folate
deficiency

Question 17

How does lead poisoning cause anaemia?

Answer 17

Pb inhibits the creation of Hb by interfering with enzymatic steps in the synthesis pathway and also causes haemolysis to occur

Question 18

what is abnormal RBC size known as

Answer 18

anisocytosis

Question 19

what is abnormal RBC shape known as

Answer 19

poikilocytosis

Question 20

Symptoms of Iron Deficiency
Anaemia (Macrocytic)

Answer 20

tiredness and lack of energy
shortness of breath
noticeable heartbeats (heart palpitations)
pale skin
a sore tongue(glossitis)
wanting to eat non-food items, such as paper or ice (pica)

Question 21

lab diagnosis of microcytic anaemia

Answer 21

MCV = < 80fL
MCH = Low
Ferritin = Low
RBCC = low
Blood Film =target and pencil cells
History of bleeding

Question 22

why is microcytic anaemia classified as a haeme disorder?

Answer 22

RBC have less Hb and therefore less Fe

Question 23

what is sideroblastic anaemia?

Answer 23

form of anaemia in which the bone marrow produces ringed sideroblasts rather than healthy red blood cells. In sideroblastic anaemia, the body has iron available but cannot incorporate it into haemoglobin, which red blood cells need in order to transport oxygen efficiently

Question 24

summarise the Iron cycling in healthy individuals

Answer 24

• Fe is ingested into the body and absorbed by the intestine.
• Fe is transported by transferrin to tissues with transferrin receptors (ex. erythroblast in BM) which incorporates Fe in BM
• at the end of RBC life, RBCs are heamolysed by macrophages of reticular endometrium
• Fe released from Hb enters the plasma and provides Fe for transferrin

Question 25

how many haem molecules can transferrin carry?

Answer 25

2

Question 26

what is Fe stored in Macrophages as

Answer 26

Feritine and haemocyurine

Question 27

why is anaemia a common side effect of chronic kidney disease (CKD)

Answer 27

if kidneys are damaged -> less haemopoietin is produced which is needed to make more RBC so less RBC = Anaemia

Additionally, because there are fewer RBCs it affects the way the body uses Fe

Question 28

describe how iron’s Uptake, Storage And Utilization For HB Synthesis

Answer 28

Fe 3+ (dietary) —–> Fe2+

the enzymes on the surface of enterocytes facilitate the process because Fe3+ is toxic and needs to be incorporated with haem

Question 29

true or false is Fe 2+ readily absorbed by the Transmembrane protein DMT1

Answer 29

true

Question 30

how does the body respond to low absorption of Fe from diet and what result does this have

Answer 30

the body uses its Fe store causing a -ve balance

Question 31

what is it called when Fe stores are depleted?

Answer 31

latent deficiency

Question 32

what does latent deficiency show

Answer 32

It is evidence of Fe deficiency however it is not indicative of anaemia as Hb levels are normal.

Question 33

what is the response to latent deficiency?

Answer 33

must be monitored as could result in Fe deficiency anaemia if not treated with Fe supplements

Question 34

causes of latent deficiency

Answer 34

• heavy menstrual bleeding
• low Fe supply (diet)

Question 35

what are the lab findings of microcystic anaemia?

Answer 35

FBC:
low Hb, RBCC, MCH and MCV

Blood film:
1. Microcytosis= small red blood cells
2. Hypochromia= pale red blood cells
3. Elliptocytosis= long thin cells
4. Teardrop poikilocytes= tear shaped cells
5. Anisocytosis= red blood cells are unequal in size

Question 36

what other ways are used to determine Fe deficiency

Answer 36

can investigate serum ferritin as it’s their main storage protein for Fe

(is produced in response to inflammation)

Question 37

true or false is ferritin universal

Answer 37

true, ferritin is a universal intracellular protein in all organisms (found in the cytosol)

Question 38

what do increased ferritin levels indicate

Answer 38

an iron storage disorder ((haemochromatosis) which occurs due to too much iron build-up)

Question 39

what does a normal blood film look like

Answer 39

Question 40

what does a blood film with Fe deficiency look like

Answer 40

Question 41

Treatment for Fe deficiency

Answer 41

*Iron supplements
* The most commonly prescribed supplement is ferrous sulphate
twice daily
* In severe cases - blood transfusion & iron therapy
* Vitamin C
* Birth control pills (given in cases of Fe deficiency caused my menstruation to reduce blood loss)

Question 42

Blood film of RBCs responding to treatment

Answer 42

Question 43

what are the characteristics of macrocytic anaemia?

Answer 43

• abnormally large RBCs
• MCV 98 fL

Question 44

describe how megaloblastic anaemia is a cause for macrocytic anaemia

Answer 44

impaired DNA synthesis so precursors for megaloblast have large nuclei and dispersed chromatin

=> causes anaemia as recognised as being abnormal and then removed from circulation early (ineffective erythropoiesis)

Question 45

what are some sources of B12 (cobalamin)

Answer 45

• beef liver
  -salmon, tuna
• milk
  -egg
• plain yoghurt

Question 46

what is the RDA for adults?

Answer 46

2.4 μg

Question 47

where is B12 primarily found in animals

Answer 47

found in the liver of animals bound to proteins methylcobalamin

Question 48

To be absorbed B12 has to …

Answer 48

be liberated and extracted with a combination of proteolytic enzyme
(pepsin) and acidic enviromentof stomach

Question 49

anaemia due to B12 deficiency affects what population of people

Answer 49

vegans and vegetarians

Question 50

what two enzymes is B12 an essential cofactor for

Answer 50

• methylmalonic mutase
• methyltetrahydrofolate reductase

Question 51

what conversion does methylmalonic
mutase catalyse?

Answer 51

Conversion of L-methylmalonyl coenzyme A to succinyl coenzyme A (a key step in the synthesis of haem)

Question 52

what conversion does methyltetrahydrofolate reductase catalyse?

Answer 52

Methylation of homocysteine to methionine (B12 used to deliver methyl group)

Question 53

summarise B12 absorption

Answer 53

• Released from protein-binding foods and extracted by enzymes and acid conditions in the stomach
• Complexes with intrinsic factor (IF) 1:1
• IF synthesised and released by gastric parietal cells stomach. IF acts as a carrier protein by delivering B12 to the Large intestine where it can be absorbed by the ileum
• For absorption to occur, docks to the receptor on an enterocyte
  -Receptor has 3 components cubulin, megalin and amnionless
• The IF-B12 complex binds to surface receptor cubulin
• Binds to 2nd protein called amnionless
• Directs endocytosis of the cubulin IF-B12 complex in the distal ileum where B12 is absorbed and IF destroyed

Question 54

how is B12 transported?

Answer 54

B12 is transported by enterocytes from intrinsic factors to transcobalamin and hatocorrin

Question 55

why is B12 transported?

Answer 55

so it can enter the bloodstream and be delivered to developing tissue such as BM.

Question 56

What percentage of B12 is bound to hatocorrin

Answer 56

80 - 90%

Question 57

what is the intrinsic factor where B12 is transported from and where is it produced?

Answer 57

intrinsic factor is the glycoprotein. is produced in the gastric epithelium and tightly binds to B12 in our GI tract.

Question 58

causes of B12 deficiency

Answer 58

1. Malnutrition:

> Inadequate dietary intake– vegan diet- uncommon

2. Malabsorption :

> 90% of cases lack of intrinsic factor – Pernicious Anaemia.
Gastrointestinal disease
Surgical removal on site of IF synthesis
Drug Induced
Increased requirement of vitamin- pregnancy

Question 59

what is pernicious anaemia?

Answer 59

The immune system attacks the cells in the stomach that produce the intrinsic factor, which means the body is unable to absorb vitamin B12

Question 60

what is the onset of pernicious anaemia?

Answer 60

60 years

Question 61

what can cause pernicious anaemia?

Answer 61

Helicobacter pylori infection may initiate an autoimmune gastritis which presents in younger individuals as iron deficiency and in the elderly as pernicious anaemia

Question 62

how is pernicious anaemia treated?

Answer 62

with B12 injections

Question 63

how does the lab diagnose B12 deficiency?

Answer 63

Question 64

why is folate important?

Answer 64

for the synthesis of thymidine and the development of a healthy fetus (in the spinal cord and brain)

Question 65

what food contains folate

Answer 65

• beef and chicken liver
• broccoli, spinach and okra
• egg yolk

Question 66

how long do folate stores last

Answer 66

three months

Question 67

causes of folate deficiency

Answer 67

1. Inadequate dietary intake (common), folate is heat labile
   (folate dehydrated by cooking)
2. Intestinal malabsorption
   Coeliac disease- destruction of intestinal villi= malabsorption of folate
3. Increased requirement
   Pregnancy
4. Drug-induced interferes with absorption or metabolism
   Alcohol (coupled with poor diet)

Methotrexate
> inhibits dihydrofolate reductase= decreased supply of folates
> Folate aids those treated with long-term, low-dose methotrexate for rheumatoid arthritis (RA) or psoriasis

Question 68

explain how large cells are produced and what are the Biochemical Basis of Megaloblastic Anaemia.

Answer 68

• Folate is necessary for nucleotides (adenosine monophosphate (AMP) /guanosine monophosphate (GMP)).
• Inadequate amounts of (dUMP)/ (dTMP) leads to a failure of DNA synthesis as the rate-limiting step is inhibited.
• Causes Loss of nucleus in cells with fewer cell divisions leading to larger cells

Question 69

Why is folate needed?

Answer 69

lack of folate. folate isn’t recycled so it means B12 doesn’t have a methyl group therefore homocysteine cant be converted leading to a build-up of homocysteine

Question 70

what do the lab results indicate about macrocytic anaemia

Answer 70

Question 71

what does a macrocytic blood film look like

Answer 71

Question 72

summarise how Macrocytic Anaemia is diagnosed

Answer 72

Question 73

explain (TMPRSS6 gene) transmembrane serine protease 6 as a cause of Fe deficiency anaemia

Answer 73

The most likely diagnosis is congenital iron deficiency.
▪ The TMPRSS6 gene provides instructions for making
a protein called matriptase-2.
▪ This protein is part of a signalling pathway that
controls the levels of hepcidin - a regulator of iron
balance in the body.
▪ When blood iron levels are low, this signalling
pathway reduces hepcidin production
▪ Allows more iron from the diet to be absorbed
through the intestines and transported out of storage
into the bloodstream.

Question 74

Parvovirus-induced pure red cell aplasia

Answer 74

Pure red cell aplasia or erythroblastopenia refers to a type of aplastic anaemia affecting the precursors to red blood cells. In PRCA, the bone marrow ceases to produce red blood cells.