5. CARDIOVASCULAR SYSTEM I

Question 1

Which two types of circulation are there in the body?

Answer 1

1. Systemic circulation: Blood from the heart is distributed around the body before returning to the heart
2. Pulmonary circulation: Blood from the heart flows to the lungs and back

Question 2

Name three types of blood vessels and their functions.

Answer 2

Arteries: Carries oxygenated blood away from the heart (with exception of pulmonary and umbilical arteries) under high pressure. Smaller arteries are called arterioles.
Veins: Carries deoxygenated blood towards the heart (exceptions - pulmonary and umbilical veins) under low pressure. Small veins are called venules. They contain valves to aid in blood flow.
Capillaries: Smallest blood vessels that connect arterioles and venules. They specialise in the exchange of substances between the blood and cells/tissues.

Question 3

Name three components (not water) of blood plasma.

Answer 3

Proteins
Nutrients
Enzymes
Hormones
Mineral salts
Organic waste materials
Gases

Question 4

Where are most blood plasma proteins synthesised in the body?

Answer 4

In the liver by hepatocytes

Question 5

List two functions of albumin

Answer 5

1. Carrier of substances (lipids, steroid hormones)

2. Maintains osmotic pressure

Question 6

List two functions of globulins

Answer 6

1. Immunity (immunoglobulins secreted by B-cells)

2. Transports iron, lipids and vitamins

Question 7

What is another name for ‘clotting factor 1’?

Answer 7

Fibrinogen

Question 8

Name two cations (+)

Answer 8

Calcium, Magnesium, Sodium, Potassium

Question 9

Name two anions (-)

Answer 9

Chlorine, Bicarbonate, Phosphate, Sulphate

Question 10

Which four nutritional products of digestion pass into the blood for distribution?

Answer 10

Carbohydrates
Amino Acids
Lipids
Vitamins

Question 11

Define haematopoiesis

Answer 11

The production of all blood cells in red bone marrow from pluripotent stem cells.
During the first two months of gestation the embryonic yolk sac performs this function. From months 2-9, the liver and spleen of the foetus takes over this role.

Question 12

Name two other locations in the body where haematopoiesis takes place

Answer 12

In the red bone marrow inside vertebrae, ribs, sternum, skull, sacrum, pelvis and proximal long bones (mostly femur)

Question 13

Describe how the structure of RBCs support oxygen transport.

Answer 13

Erythrocytes are bi-concave and have no nucleus, giving the cells a larger surface area to transport oxygen.

Question 14

Describe the structure of haemoglobin (Hb)

Answer 14

Each erythrocyte has 280million Hb molecules. One haemoglobin molecule consists of four polypeptide chains (globin) and each chain is bound to a pigment called ‘haem’ which contains iron. Each haem group can carry an oxygen molecule, which means each haemoglobin can carry four oxygen molecules.

Question 15

What is ‘haematocrit’ and why is this value smaller in females?

Answer 15

It is the percentage of blood volume occupied by erythrocytes and in females it is roughly 42% while in males it is roughly 47%. The reason for this is menstrual blood loss in women and the fact that androgens, of which men have more, stimulate RBC production

Question 16

What is the main difference between adult and foetal haemoglobin?

Answer 16

Adult haemoglobin molecules are composed of two alpha and two beta sub-units.
Foetal haemoglobin is composed of two alpha and two gamma sub-units.

Question 17

Why is the colour of blood red?

Answer 17

The chemical bond between iron and oxygen reflects red light.

Question 18

What nutrients are required for erythropoiesis?

Answer 18

Vitamin B12
Folate (B9)
Iron

Question 19

List two triggers of erythropoiesis

Answer 19

Hypoxia (stimulates kidneys to produce erythropoietin which stimulates erythropoiesis in bone marrow)
High altitude
Blood loss
Pregnancy

Question 20

What is erythropoietin?

Answer 20

Hormone secreted by the kidneys (in adults and children) which stimulates the formation of erythrocytes in red bone marrow.

Question 21

Why do premature newborns often exhibit anaemia?

Answer 21

Partly due to inadequate EPO (erythropoietin) and during the first weeks of life, the liver produces EPO, but is less sensitive to hypoxia than the kidneys

Question 22

Explain what is meant by:

a. Rhesus positive
b. Rhesus negative

Answer 22

a. Erythrocytes have Rhesus antigens on surface

b. Erythrocytes do not have Rhesus antigens on surface

Question 23

Inheritance of the Rhesus factor is via a rhesus _________ gene. Anti-rhesus antibodies are produced in rhesus ________ individuals only if they come into contact with the rhesus ________. They could come into contact in ________ or incompatible blood infusion.

Answer 23

recessive
negative
antigen
pregnancy

Question 24

List two key functions of leukocytes

Answer 24

Defends the body from microbes and foreign particles. Plays an important role in immunity

Question 25

Describe the difference between granulocytes and agranulocytes

Answer 25

Granulocytes have secretory granules in their cytoplasm and agranulocytes do not.

Question 26

Compare the mode of action of neutrophils with basophils and eosinophils

Answer 26

Neutrophils are phagocytic and they secrete lysosomes to digest microbes. They are normally first on the site of infection.
Basophils play a key role in inflammation by releasing histamine and heparin from their granules. Histamine also dilates blood vessels.
Eosinophils are phagocytic and eliminate parasites. They migrate to allergic sites and promote inflammation (allergic reactions).

Question 27

Name the types of agranulocytes

Answer 27

Monocytes (Macrophages in tissues)

Lymphocytes

Question 28

Describe two functions of macrophages

Answer 28

• Phagocytosis: ingest & destroy cellular debris/pathogens

- Antigen presentation: Activate other immune cells by showing what it has ingested

Question 29

Describe the mode of action of B-lymphocytes

Answer 29

B-lymphocytes activate immune response via antibody formation

Question 30

Describe the mode of action of T-lymphocytes

Answer 30

T-lymphocytes and Natural Killer cells kill invading pathogens (NK do this non-specifically)

Question 31

What is the role of thrombocytes and what is their lifespan?

Answer 31

Thrombocytes are involved in blood clotting and prevent the loss of blood from damaged blood vessels by forming a platelet plug

Question 32

Name one factor that influences the production of thrombocytes

Answer 32

Thrombocytes are produced under the influence of thrombopoetin, which is produced in the liver.

Question 33

Describe in detail the four stages of blood clotting

Answer 33

1. Vasoconstriction:
   When arterioles are damaged and collagen is exposed in vascular endothelium, thromboxane is released, which causes vascular spasm and attracts platelets.
2. Platelet plug formation:
   Platelets stick to the damaged wall, are activated and release binding proteins. Platelet aggregation cause them to become sticky.
3. Coagulation:
   Clotting factors form a clot, reinforcing the plug. The enzyme ‘thrombin’ is produced, which converts fibrinogen to fibrin. Fibrin forms a mesh of long sticky threads and erythrocytes become trapped.
4. Fibrinolysis:
   The enzyme plasmin dissolves the clot by digesting fibrin threads and inactivating fibrinogen and thrombin.

Question 34

Explain the main role of vitamin K in the body

Answer 34

Vitamin K is a fat soluble vitamin responsible for making four clotting factors (II;VII;IX;X)

Question 35

List one example of each type of coagulant:

a. Natural
b. Medicine
c. Herb
d. Nutrient

Answer 35

a. Heparin
b. Warfarin
c. Gingko Biloba, garlic, ginger, turmeric
d. Vitamin E, Essential fatty Acids

Question 36

List three generalised symptoms of anaemia

Answer 36

Fatigue, shortness of breath on exertion, palpitations, irritability, fainting

Question 37

List three generalised signs of anaemia

Answer 37

Pallor (skin/conjunctiva)
Tachycardia
Thin, thready pulse

Question 38

Name two causes (not dietary deficiency) of iron deficiency anaemia

Answer 38

• Malabsorption (i.e. low stomach acid, coeliac disease)
• Excessive blood loss (menses, GIT bleed)
• Excessive requirements (pregnancy, rapid growth)

Question 39

What are the characteristic appearance of erythrocytes in a patient with iron deficiency anaemia?

Answer 39

Reduced concentration of haemoglobin results in the cells appearing paler and smaller than normal (hypochromic microcytic anaemia)

Question 40

List two signs / symptoms specific to iron deficiency anaemia

Answer 40

Spoon-shaped nails (koilonychia)
Angular stomatitis (cracked mouth corners)
Glossitis (swollen tongue)
Brittle hair
Tachycardia

Question 41

Name one blood test for diagnosis of iron deficiency anaemia

Answer 41

Low RBCs, haemoglobin and ferritin

Question 42

Describe the pathophysiology of megaloblastic anaemia

Answer 42

Because of a shortage of Vitamin B12 and B9 (Folate), DNA replication slows down and cell growth continues without division and maturation, resulting in large erythrocytes. [Blood test shows MCV > 97 fL]

Question 43

List two causes of megaloblastic anaemia (not dietary)

Answer 43

• Lack of intrinsic factor (required for the absorption of B12) due to autoimmune disease (pernicious anaemia), coeliac, chronic gastritis, stomach cancer, gastrectomy
• Malabsorption (Crohn’s disease, surgical excision)
• Drugs (Methotrexate is a folate antagonist)

Question 44

Describe the difference between megaloblastic anaemia due to folate deficiency and megaloblastic anaemia due to Vitamin B12 deficiency

Answer 44

When it is due to a vitamin B12 deficiency, anaemia will also present with neurological symptoms such as tingling, numbness, weakness, loss of coordination, burning sensations, tinnitus, depression.

Question 45

Using definitions, compare aplastic anaemia with iron deficiency anaemia.

Answer 45

Aplastic anaemia is the rare, potentially life-threatening failure of haematopoiesis which results in pancytopenia and hypocellular bone marrow. Iron deficiency anaemia is the reversible low concentration of erythrocytes due to a lack of iron.

Question 46

List two causes of aplastic anaemia

Answer 46

Congenital (Fanconi’s Anaemia)
Idiopathic
Secondary (Iatrogenic, radiation, cancer, EBV)

Question 47

List two symptoms more suggestive of aplastic anaemia

Answer 47

Multiple infections (low erythrocyte count)
Easy bleeding and bruising (low thrombocytes)

Question 48

Define haemolytic anaemia

Answer 48

Anaemia resulting from the excessive breakdown of erythrocytes, when bone marrow activity cannot compensate for the loss of RBCs. [Erythrocyte lifespan can become as low as 5 days]

Question 49

List two causes of haemolytic anaemia

Answer 49

Genetic (Sickle cell, Thalassaemia)
Rhesus incompatability
Malaria
Drugs, radiation and chemicals
Autoimmune

Question 50

List two signs / symptoms more suggestive of haemolytic anaemia

Answer 50

Jaundice

Splenomegaly

Question 51

Using definitions, compare sickle cell anaemia to thalassaemia

Answer 51

Both are genetic conditions, but in sickle cell anaemia the RBCs sickle up because of a deficiency of the 2-alpha 2-beta formation of haemoglobin.
In thalassaemia, there is a defect in the synthesis of either the alpha of beta Hb chains (A- or B-Thalassaemia)

Question 52

Describe the pathophysiology of haemolytic anaemia of newborns

Answer 52

Excessive haemolysis occurs in the newborn due to Rhesus factor inncompatability

Question 53

Define polycythaemia

Answer 53

Excessive production of RBCs resulting in increased blood viscosity, lower blood flow and risk of thrombosis.

Question 54

Using definitions, compare granulocytopenia and leukocytosis

Answer 54

granulocytopenia is the marked reduction of granulocyte leukocytes resulting in severe illness and leukocytosis is a marked increase in the number of all leukocytes.

Question 55

Define leukaemia

Answer 55

Leukaemia describes a group of bone marrow cancers, characterised by an overproduction of leukocytes

Question 56

List two signs /symptoms of leukaemia

Answer 56

Anaemia
Malaise
Easy bleeding/bruising
Splenomegaly

Question 57

Describe the difference between acute and chronic leukaemia

Answer 57

Acute leukaemia is a sudden onset condition that can affect all ages. The leukaemic cells are immature and anaemia and thrombocytopenia is prominent but lymph node and spleen enlargement is mild. The leukocyte count can be variable.
Chronic leukaemia is insidiuous in onset and usually affects adults. The leukaemic cells are mature and anaemia and thrombocytopenia is mild, but lymph node and spleen enlargement is prominent. An increased leukocyte count is prominent.

Question 58

List one diagnostic procedure to diagnose leukaemia

Answer 58

Bone marrow biopsy
FBC
Blood film (viewing sample of blood)

Question 59

List two signs / symptoms of thrombocytopenia

Answer 59

Excessive bleeding and bruising (with prolonged bleeding times)
Petechiae (micro-haemhorrhages in the skin)
Haematuria
Vomiting blood
Bleeding gums

Question 60

List two viral causes of thrombocytopenia

Answer 60

EBV
MMR
Hepatitis

Question 61

Describe the difference between Haemophilia A and Haemophilia B

Answer 61

Haemophilia A is the deficiency of clotting factor 8 and Haemophilia B is the deficiency of clotting factor 9

Question 62

List one cause of haemophilia

Answer 62

It is genetically acquired through an x-linked recessive gene (usually affects males, females are carriers)

Question 63

List two signs / symptoms of haemophilia

Answer 63

Excessive, easy bleeding
GIT / mucosal haemorrhage
haematuria
haemarthrosis