S3 Interpreting Full Blood Count

Question 1

How is the normal range of results calculated?

Answer 1

By running tests on a group of healthy individuals (about 30) and find the mean

Question 2

What factors result in normal range changes?

Answer 2

Age, sex, ethnicity and comorbidities

Question 3

What do you do do if you have an abnormal or unexpected result?

Answer 3

Repeat the test

Interpret abnormal results in terms of clinical context and their previous full blood count (FBC) if known

Question 4

When can errors in pathology results occur?

Answer 4

1. Specimen collection
2. Delivery of specimen to laboratory
3. Specimen analysis and result reporting
4. Responsive action

Question 5

What errors can occur in specimen collection?

Answer 5

• specimen mix up
• wrong blood in tube (WBIT)
• wrong bottle
• pooling samples
• poor technique

Question 6

What is pooling samples?

Answer 6

Mixing two samples together to get the desired amount of blood in a sample tube

Question 7

What errors can occur in delivery of the specimen to the laboratory?

Answer 7

• specimen delayed/not delivered (sample can become to old to examine)
• wrong delivery method (e.g. not in ice when it should be)

Question 8

What errors can occur in specimen analysis and result reporting?

Answer 8

• specimen mix up (booking in)
• incorrect clinical details
• wrong test requested/performed
• inherent test variability (as the analysers aren’t completely accurate)
• technical error

Question 9

What errors can occur in the responsive action?

Answer 9

• result not reviewed
• reflex tests not carried out
• right result applied to wrong patient

Question 10

What is the FBC analyser like?

Answer 10

• a closed system
• easy to maintain
• able to cope with high numbers of samples

Question 11

Why do you use a pink top EDTA sample?

Answer 11

To stop blood coagulation

Question 12

What are concurrent parameters in a FBC?

Answer 12

• red cells - indices, number (RCC), haemoglobin
• platelets - count, size
• white cells - count, full differential

Question 13

What are the different FBC analyser techniques?

Answer 13

• spectrophotometry
• flow cytometry
• flow cytometry differential

Question 14

What is a spectrophotometry?

Answer 14

The amount of light absorbed by the sample is proportional to the amount of absorbent compound within it (used to measure Hb)

1. Uses a hypotonic solution to lyse cells
2. Use light of an appropriate wavelength
3. Use a calibration curve to determine the sample conc

Question 15

What is a flow cytometry?

Answer 15

Used for counting number of cells and their size

1. A single file line of cells passes through the machine
2. The cells pass through a light beam (they interrupt the beam)
3. This interruption is recorded - used to determine number of cells
4. The scatter pattern determines the size of the cell e.g. the more forward scatter, the bigger the cell

Question 16

What is a flow cytometry differential?

Answer 16

Measures scatter

• forward scatter determines size
• side scatter determines whether the cell is mono/polynucleated and its intracellular complexity e.g. granules

The myeloperoxidase activity is also measured - this is linked to granulocytes

Question 17

What is the packed cell volume (PCV/Hct) (L/L)? What is it used to assess?

Answer 17

Proportion of blood that is made up of RBCs

Assesses: anaemia or polycythemia - lower PCV/Hct in polycythemia (more RBCs)

Question 18

What are haemoglobin levels (g/L) used to assess? What are the reference ranges?

Answer 18

Assesses: acute bleed, haemolytic, bone marrow disorders

• less than 135 in adult men
• less than 115 in adult women
• less than 110 in children (3-12)
• less than 150 in newborns

Question 19

What can affect the Hb measurement and cause an overestimate? What will reduce Hb?

Answer 19

Turbidity

In vitro haemolysis/clotted sample

Question 20

What is the red cell count (RCC) (x10^12/L)? What is it used to assess?

Answer 20

The number of RBCs in a given volume of blood

Assesses: anaemia (reduced in iron deficient anaemia, increased in thalassemia) and erythrocytosis (increased)

Question 21

What is the mean cell volume (MCV) (fL)? What is it used to assess?

Answer 21

The mean RBC size, measured using the amount of light scattered as they pass in a single file past a laser (flow cytometry)

Assesses: used to screen the cause of anaemia e.g. if high could be haemolytic anaemia, hypothyroidism or myeloma, if low could be iron deficiency anaemia, thalassaemia or lead poisoning

Question 22

What is the mean cell Hb (MCH) (pg)? What is it used to assess?

Answer 22

Average measure of the amount of Hb in each RBC (Hb/RCC)

Assesses: anaemia (lower in iron deficiency, normal/increased in macrocytic anaemias)

Question 23

What is the mean cell Hb concentration (MCHC) (g/L)?

Is this useful?

Answer 23

The mean concentration of Hb in RBC (Hb/MCV x RCC)

No

Question 24

What is red cell distribution width (RDW)? What does it mean if it’s increased? What is it used to assess?

Answer 24

Variation in the size of the RBC

Ansiocytosis (variation in RBC size)

Assesses: the cause of anaemia - increased in iron deficiency, normal in thalassaemia, increased after transfusion

Question 25

What is the reticulocyte count (x10^9/L)? In which cases is this increased or decreased?

Answer 25

Measurement of the number of young erythrocytes

They’re identified using size and RNA content

Increased in haemolytic anaemia, recent blood loss or response to erythropoietin
Decreased in bone marrow failure

Question 26

When is a sample flagged for needing a blood film?

Answer 26

• if significant result is outside the normal range
• if there is a significant change within the normal range
• if analyser thinks there are abnormal cells (e.g. immature cells or unable to identify cells)

Question 27

How do you do a blood film?

Answer 27

1. A small drop of blood is spread onto a glass slide (layer is 1 cell thick)
2. The sample is fixed with methanol
3. The sample is stained to enable visualisation under a microscope

Question 28

What does microcytic (measure with MCV) mean?

Answer 28

Small RBCs

Question 29

What does macrocytic (measure with MCV) mean?

Answer 29

Large RBCs

Question 30

What does hypochromic (measure with MCH) mean?

Answer 30

Pale, less Hb

Question 31

What does hyperchromic (measure wit h MCH) mean?

Answer 31

Dense, more Hb in a given volume

Question 32

What is ansiocytosis?

Answer 32

Variation in size

Question 33

What is dimorphism?

Answer 33

Two distinct populations of red cells

Question 34

What is poikilocytosis?

Answer 34

Abnormally shaped RBC

Question 35

What is spherocytosis?

Answer 35

Spherical RBC

Question 36

What is elliptocytosis?

Answer 36

Elliptical RBC

Question 37

What are irregularly contracted cells?

Answer 37

Small dense RBC but not as regular in shape as spherocytes

Question 38

What are echinocytes, acanthocytes and keratocytes?

Answer 38

Spiculated cells

Question 39

What are sickle cells?

Answer 39

Crescent or sickle shaped cells seen in sickle cell disease

Question 40

What are target cells?

Answer 40

RBC with a dark area in the middle of the area of central pallor (paleness)

Question 41

What is schistocytes?

Answer 41

Red cell fragments

Question 42

What is polychromasia?

Answer 42

Many colours - reticulocytes

Question 43

What are Howell-Jolly bodies?

Answer 43

DNA/nuclear fragments

Question 44

What is basophilic stippling?

Answer 44

RNA inclusions in cells

Question 45

What are Pappenheimer bodies?

Answer 45

Iron inclusions in cells

Question 46

What are Heinz bodies?

Answer 46

Denatured Hb

Question 47

What are Hb H inclusions?

Answer 47

‘Golf-ball cells’ - Hb H (stains blue)

Question 48

What are the Hb, MCV, MCH, MCHC and RDW in iron deficiency?

Answer 48

• Hb, MCV, MCH, MCHC are decreased

* RDW is increased

Question 49

What is the reticulocyte count and reticulocyte Hb content (CHr) in iron deficiency?

Answer 49

Reticulocyte count is low to normal

CHr is low

Question 50

What do cells look like on a blood film for iron deficiency?

Answer 50

Hypochromic

Microcytic

Pencil cells

A few target cells

Question 51

What are the levels of Hb, MCV, RDW, MCH, MCHC and reticulocyte count in spherocytosis?

Answer 51

Hb - normal or increased
MCV - normal 
RDW - increased
MCH - normal
MCHC - increased
Reticulocyte count - increased

Question 52

What are the levels of Hb, RCC, MCV*, RDW, MCH, MCHC, Hct/PCV and reticulocyte count in vitamins B12 deficiency?

Answer 52

Hb - decreased 
RCC - decreased 
MCV* - increased 
RDW - increased
MCH - increased
MCHC - normal 
Hct/PCV - decreased (as there’s a lower RCC)
Reticulocyte count - decreased

Question 53

Give 3 examples when WBCs increased?

Answer 53

• infection
• inflammation
• drugs

Question 54

What can nucleated RBCs be counted as by the analyser?

Answer 54

As white cells

Question 55

What is the most frequent parameter that varies from normal?

Answer 55

Platelet number

Question 56

Will clots in sample increase or decrease platelet number?

Answer 56

Decrease