Haematology: introduction to blood cells

Question 1

Composition of blood

Answer 1

Blood which is composed of plasma (-55%) and the cellular elements which are:

1. The erythrocytes (RBC’s)-45%
2. The Leukocytes (WBC’s) and platelets (thrombocytes) – 1%

Question 2

Erythrocytes contain and function

Answer 2

Contain haemoglobin

Function in the transport of O2 and CO2

Question 3

Centrifuged whole blood the sample

Answer 3

Anti-coagulated sample e.g. EDTA to chelate Ca2+

Question 4

Normal blood cell production –

Answer 4

• Fetal: yolk sac
• Post natal – long bones (femur and humerus)
• Adult – axial skeleton

Question 5

Bone Marrow

Answer 5

• 75% of marrow for WBC
• 25% of BM for Red cells
Erythroid/Granuocyte Ratio 1:3 (increased in consumption or loss of RBC)

Question 6

How are cells produced?

Answer 6

Multi-potential hematopoietic stem cells
• Common myeloid progenitor
• Common lymphoid progenitor

Question 7

Common myeloid progenitor produces

Answer 7

Thrombocytes
Erythrocytes
Mast cells
Myleblasts:
•	Basophil
•	Neutrophils
•	Eosinphils
•	Monocyte → macrophage

Question 8

Common lymphoid progenitor produces

Answer 8

Natural killer cells
T lymphocytes (cell mediated immunity and also “help” B cells)
B lymphocytes ( humoralimmunity)

Question 9

Lymphoid tissue found in

Answer 9

1. Bone marrow
2. Thymus
3. Tonsils and adenoids
4. Spleen
5. Lymph nodes
6. Gut associated lymphoid tissue (GALT) e.g. tonsils, appendix, payers patches
7. Lymphatic channels
8. Blood – 2% of total body lymphocytes
9. Thyroid, parotid etc.

Question 10

Lymph node function

Answer 10

Act as a filter to remove bacteria, wiruses, and foreign particles

Question 11

Problems with blood cells list

Answer 11

1. Myeloid or lymphoid
2. Too many cells (cythaemia, cytosis – “reactive or neoplastic/clonal)
3. Lymphadenopathy – “reactive or neoplastic”
4. Hepatosplenomegaly
5. Clonal plasma cells (Myeloma, MGUS, plasmacytoma)
6. Too many cells (cytopenia)
7. Dysfunction

Question 12

What does the full blood count measure:

Answer 12

Red cells
Platelets
White cell count
WCC: differential e.g. neutrophils

Question 13

Red cells looking at

Answer 13

Concentratino of haemoglobin: Hb
Red cell to plasma ratio: Hct or PCV (pack cell volume)
Cell numbers (RBC)
Cell size (MCV)
Amount of Hb/RBC (MCH, MCHC)

Question 14

Platelet normal range

Answer 14

150-4000 x 109/l

Question 15

WCC normal range

Answer 15

4-11 x 109/l (4-11)

Question 16

Neutrophils range

Answer 16

2-7.5 x 109/l

Question 17

Lymphocytes range

Answer 17

1.0-4.0 x 109/l

Question 18

Haemoglbin

Answer 18

Male: 130-180 g/L
Female: 115-165 g/L

Question 19

Haematocrit

Answer 19

Male: 42%-54%
Female: 38%-46%

Question 20

RBC count

Answer 20

Male: 4.7-6.1 million cells/mcL
Female: 4.2-5.4 million cells/mcL

Question 21

Haematocrit definition

Answer 21

Ratio of red cells to haemoglobin
Contents:
•	57% plasma
•	1% buffy coat – WBC
•	42% Hct (PCV)

Question 22

MCV indicates and good starting point for

Answer 22

Mean cell volume (MCV)
Indicates the Red cell volume (size)
Normal range 80-100 fl
Good starting point for the evaluation of anaemia

Question 23

MCV can be

Answer 23

Microcytic (100 fl)

Question 24

Microcytic anaemia differentials

Answer 24

Iron defiency IDA
(Chronic bleeding)
Chronic disease
Thalassemias
Hemoglobinopathies
Sideroblastic anaemia

Question 25

Normocytic anaemia differentials

Answer 25

Chronic disease
Acute blood loss
Hemoglobinopathies
Primary marrow disorders
Combined defiencies
Haemolysis
Renal failure

Question 26

Macrocytic anaemia

Answer 26

Megaloblastic anaemia
Liver disease/ alchohol
Metabolic disorders
Marrow disorders
Reticulocytosis
Drugs

Question 27

Mean cell haemoglobin (MCH) and Mean cell haemoglobin concentration (MCHC) reflect

Answer 27

• Both the MCH and MCHC reflect Hb content of RBC
• MCH – 27.0-32.0 pg. Increased on macrocytosis (Large RBC)
• MCHC – 32.0-36.0 g/dL. Increased in spehrocytosis
• Both are reduced in iron defiency and thalassaemia

Question 28

Reticulocyte count use for

Answer 28

• Investigation of anaemia

Question 29

Reticulocytes increased indicates

Answer 29

• RBC production appropriately increased
• Reduced survival (Haemoloysis or bleeding)
• LDH, Bili, blood film, haptoglobins can help distinguish

Question 30

If reticulocytes reduced

Answer 30

• Problem with production

Question 31

Peripheral blood film usefulness depends on

Answer 31

Clinical information provided on request
May direct further investigations
Asess red cell, platelet and white cell, number, size, colour, morphology
Any abnormal circulating cells?

Question 32

Red cell morphology example

Answer 32

Sickle cell anaemia

Question 33

White cell morphology example

Answer 33

Dysplastic neutrophils

Question 34

Platelets morphology example

Answer 34

Abnormally large platelets

Question 35

Abnormal circulating cell example

Answer 35

Burkitts lymphoma cells

APML blasts

Question 36

FBC changes may be secondary to:

Answer 36

Physiological
Inherited
Acquired

Question 37

Physiological example

Answer 37

Pregnancy
Infancy
Ethnicity different normal ranges

Question 38

Inherited examples

Answer 38

Anaemia:
•	Hb
•	Enzyme
•	Membrane
•	Bone marrow

Question 39

Acquired examples

Answer 39

Infection (viral, bacterial, protozoal)
Neoplastic (haem or non haem)
Vascular (bleeding, infarction)
Inflammatory, Immune
Trauma (e.g. surgery)
Endocrine 9thyroid, cortisol, pituitary)
Drugs
Metabolic (B12, folate, iron, liver, renal, alcohol)
Degenerative (MDs), Dietary

Question 40

Too many cells: Clonal/neoplastic

Answer 40

Lymphoid progenitor: 
•	ALL (immature cells)
•	CLL, Lymphomas, MM (mature cells)
Myeloid progenitor:
•	AML (immature cells)
•	Myeloproliferative disorders

Question 41

Acute leukaemias Types

Answer 41

Myeloid or lymphoid
Proliferation or immature cells
Differentiation block

Question 42

Acute leukaemias Symptoms

Answer 42

Marrow failure:

1. anaemia
2. Thrombocytopenia (bleeding)
3. Infection (neutropenia)
4. Patients have a relatively short history and are often unwell

Question 43

Myeloproiferative neoplasm Characterised by

Answer 43

Excessive proliferation of terminally differentiated myeloid cells (normal differentiation) – somatic acquired mutations in haemopoitic stem cells

Question 44

Myeloproiferative neoplasm Lead to

Answer 44

Cytokine independent unrestricted growth

Question 45

Myeloproiferative neoplasmPatients present

Answer 45

Often well and asymptomatic therefore incidental findings

Question 46

Myeloproiferative neoplasm Types

Answer 46

Platelets: essential thrombocytthaemia ET

Red cells: Polycythaemia, rubra Vera, PRV

Granulocytes: Chronic myeloid, leukaemia, Ph+ BCR/ABL +

Question 47

Myeloproiferative neoplasm Mutation associated

Answer 47

JAK2 V617F

Question 48

Primary haematological cause

Answer 48

Lymphoid clonal expansion
Lymphoproiferative – 
•	Lymphoma
•	Leukaemia
(common present with lymphocytosis or lymphadenopathy or both

Question 49

Lymphadenopathy causes

Answer 49

Lymphoma
Infection (viral e.g. HIV/EBV, bacterial e.g. TB)
Neoplatic (haem or non haem e.g. Ca)
Inflammatory (e.g. sarcoid, SLe)

Question 50

Clinically divide into

Answer 50

Localized or generalized

→ if localized look for cause (infection, inflammation, malignancy) – need some idea which lymphoid groups drain what.

Question 51

Lymphoproliferative (clonal problems

Answer 51

Leukaemia → bone marrow (acute vs chronic)
Lymphoma → LNs> bone marrow
•	Hodkins
•	Non hodkins
High grade vs low grade

Question 52

Symptomatic Myeloma: Acronym

Answer 52

CRABI
C – hypercalcaemia
R- renal dysfunction
A – anaemia
B – bone – lytic lesions, fractures, osteoporosis
I – Infection

Question 53

Symptomatic Myeloma: Asymptomatic Myeloma

Answer 53

No CRABI
AND ether
>-10% plasma cell sin bone marrow
OR > 30 g/ paraprotein

Question 54

Symptomatic Myeloma: MGUS

Answer 54

<30 g/l paraprotein
AND no CRABI
1% per year progress to Myeloma. More likely. More likely if high level PP, non IgG (IgM, IgA, IgE or IgD) and abnormal SFLC

Question 55

Thrombocytopenia

Answer 55

• Repeat the test, look at previous results and ask for a blood film.
• Take a careful drug history
• Risk factors for HIV and hepatitis C
• If a patient is well, has no other abnormal clinical or laboratory findings then likely immune thrombocytopenia is the commonest cause

Question 56

Risk of bleeding is not based on

Answer 56

• Platelet count alone; also consider age, co-morbidity, mandated anticoagulation, risk of trauma and any need for surgery
• Spontaneous bleeding/bruising unusual unless platelets <30 x 109/l

Question 57

Thrombocytopaenia spurious causes

Answer 57

• Large platelets
• Platelet clumping
• Fibrin strand
• Platelet Satelitism

Question 58

Neutropenia: Definition

Answer 58

<1.5 x 109/l

Question 59

Neutropenia: African patients neutrophil numbers normal

Answer 59

<1x109/l (Physiological “ethnic” neutropenia

Question 60

Neutropenia: Risk of infection determined by

Answer 60

Severity and cause of neutropenia
Mild 1-1.5
Moderate 0.5-1
Severe <0.5

Question 61

Neutropenia: Neutropenia increases risk of

Answer 61

Bacterial
Suprative infections
Not parasitic or viral infections