Blood Flow, Gas Exchange and Transport

Question 1

What are the bronchial arteries?

Answer 1

Arteries, arising from the systemic circulation, supplying oxygenated blood to airway smooth muscle, nerves and lung tissue

Question 2

Define Dalton’s Law

Answer 2

Total pressure of gas mixture = sum of pressure of individual gases

Question 3

Define Boyle’s Law

Answer 3

Increase volume = decrease pressure

Question 4

What is the pulmonary system in terms of flow and pressure?

Answer 4

High flow, low pressure system
High flow as all the blood in the body must pass through the lungs at the same rate as it travels round the systemic system
Low pressure due to reduce resistance to flow

Question 5

What is the partial pressure of oxygen in the alveoli and arterial system?

Answer 5

100 mmHg

13.3 kPa

Question 6

What is the partial pressure of oxygen in the tissue cells and venous system?

Answer 6

40 mmHg

5.3kPa

Question 7

What is the partial pressure of carbon dioxide in the alveoli and the arterial system?

Answer 7

40 mmHg

5.3 kPa

Question 8

What is the partial pressure of carbon dioxide in the tissue cells and the venous system?

Answer 8

46 mmHg

6.2 kPa

Question 9

What are 5 factors that affect the rate of diffusion?

Answer 9

Proportional to:
Partial pressure of gas
Solubility of gas
Available surface area

Inversely proportional to thickness of membrane - most rapid over short distances

Question 10

Function of Type on pneumocytes?

Answer 10

Specialised for diffusion - provide large surface area and have a thin membrane

Question 11

How is efficiency of gas exchange maximised?

Answer 11

Capillaries are always adjacent to type I alveolar cells
and not beside type II
Elastic fibres are not found between capillaries and alveolar walls
Alveoli have a large surface area
Alveoli have thin membranes

Question 12

How does emphysema affect gas exchange?

Answer 12

Destruction of alveoli tissue reduces surfaces area for gas exchange

Question 13

How does fibrotic lung disease affect gas exchange?

Answer 13

Thickened alveoli membranes show gas exchange

Loss of lung compliance decrease alveolar ventilation

Question 14

How does pulmonary oedema affect gas exchange?

Answer 14

Fluid in the interstitial space increased diffusion distance - however, arterial PCO2 is normal due to high solubility of CO2 in water

Question 15

How does asthma affect gas exchange?

Answer 15

Increased airway resistance decreases airway ventilation

Question 16

What is the ideal V/Q relationship and is it possible across the whole lung?

Answer 16

Ventilation = perfusion

At the base, blood flow is high as arterial pressure > alveolar pressure and vascular resistance decreased (Q > V)

At the apex, blood flow is flow as arterial pressure < alveolar pressure, which compresses the arterioles and increases vascular resistance (V > Q)

Question 17

State the V/Q ratios

Answer 17

V/Q = 1 : perfectly matched
V/Q > 1 : mismatch 1 (less perfusion)
V/Q < 1 : mismatch 2 (less ventilation)

Question 18

Where does the majority of V/G mismatch occur?

Answer 18

At the apex

Question 19

What is a shunt?

Answer 19

When perfusion of alveoli normal, but ventilation of alveoli fails so blood passing it is deoxygenated - V/Q < 1

Question 20

What are two mechanism when V < Q?

Answer 20

Decrease PO2 and underventilated alveoli constrict their arterioles, diverting blood to better ventilated alveoli

Increase PCO2 causes mild bronchodilation

(Constriction of arterioles due to hypoxia is specific to pulmonary vessel, systemic vessels dilate)

Question 21

Autoregulation when V > Q?

Answer 21

Creates alveolar dead space

Increase alveolar PO2 -> pul. vasodilation
Decreased alveolar PCO2 -> bronchial constriction

Question 22

What is alveolar dead space?

Answer 22

Alveoli that are V but not Q

Question 23

What is anatomical dead space?

Answer 23

Air in conducting zone of respiratory tract unable to participate in gas exchange as walls are too thick

Question 24

What is physiological dead space?

Answer 24

Anatomical DS + alveolar DS

Question 25

What determines the percentage of saturation of Hb with O2?

Answer 25

Arterial PO2

Question 26

What are 3 factors in establishing arterial PO2?

Answer 26

Composition of inspired air
Alveolar ventilation rate
Efficiency of gas exchange

Question 27

What is blood’s oxygen carrying capacity with and without haemoglobin?

Answer 27

3ml/L

200ml/L

Question 28

Name 4 type of Hb in RBCs

Answer 28

HbA most abundant
HbA2
HbF
Glycosylated Hb

Question 29

How does alveolar PO2 indirectly determine Hb saturation with O2?

Answer 29

PAO2 = PaO2 which determines % saturation

Question 30

How is the partial pressure gradient maintained at the alveoli?

Answer 30

O2 moves into the arterial blood then binds to Hb, removing it from solution and maintaining a low PO2 in solution

Question 31

What does the sigmoidal O2/Hb dissociation curve tell us about % saturation of O2 of 100 to 60 mmHg?

Answer 31

When PO2 is high, a small decrease in PO2 doesn’t cause a large decrease in saturation

Allows normal uptake of O2 by Hb when PO2 is reduced

Question 32

Why does foetal haemoglobin have a greater affinity for O2 than HbA?

Answer 32

To extract O2 from maternal blood

Question 33

Why does myoglobin have a greater affinity for O2 than HbA?

Answer 33

So that it can strip oxygen from HbA in the blood when the skeletal muscle it is contained in is working hard

Question 34

What is anaemia?

Answer 34

Any condition where the carrying capacity of the blood is compromised

I.e. iron deficiency, haemorrhage, vit B deficiency

Question 35

What is the PO2 in arteries in someone who has anaemia?

Answer 35

Normal PaO2 and gas exchange occurs as normal, but as there are less O2 transporters, O2 dissolves int he plasma and O2 content is decreased

Question 36

How does pH affect Hb affinity for O2?

Answer 36

Alkanosis - increase

Acidosis - decrease

Question 37

How does PCO2 affect Hb affinity for O2?

Answer 37

Increase PCO2 - deceases affinity

Decrease PCO2 - increases affinity

Question 38

How does temp affect Hb affinity for O2?

Answer 38

Increase = decrease

Decrease temp = increase

Question 39

How does DPG affect Hb affinity for O2?

Answer 39

Increase DPG = decrease

Question 40

Under what conditions do 2,3-DPG levels increase?

Answer 40

Situations with inadequate blood supply:
Heart or lung disease
Living at high altitude

Question 41

Why is co dangerous?

Answer 41

Hb has an affinity that is 250 times greater for CO than O2, but it binds readily and dissociated slowly so hard to remove and O2 levels will decrease

Question 42

What are symptoms of CO poisoning?

Answer 42

Hypoxia and anaemia
Nausea and headaches
Cherry red skin and mucous membranes
Potential brain damage and death

Question 43

Management for CO poisoning?

Answer 43

100% O2 to increase PaO2

Question 44

What are the 5 types of hypoxia?

Answer 44

Hypoxaemia 
Anaemic
Stagnant 
Histotoxic
Metabolic

Question 45

What is hypoxaemia hypoxia?

Answer 45

Reduced O2 diffusion in lungs

Question 46

What is anaemic hypoxia?

Answer 46

Reduced O2 carrying capacity

Question 47

What is stagnant hypoxia?

Answer 47

Heart disease -> inefficient pumping of blood

Question 48

What is histotoxic hypoxia?

Answer 48

CO poisoning prevents cells utilising O2

Question 49

What is metabolic hypoxia?

Answer 49

O2 delivery does not meet demand (increased during exercise)

Question 50

How does the CO2 split up after it diffuses out of cells into systemic circulation?

Answer 50

7% remains dissolved in plasma
23% binds to Hb -> carbaminohemoglobin
70% converted to bicarbonate (HCO3) and H+ ions (which are buffered by Hb -> HbH)

Question 51

What happens in CO2 transport after it splits up?

Answer 51

HCO3 enters plasma in exchange for Cl- - choline shift

Question 52

How is the CO2 excreted?

Answer 52

7% of CO2 that dissolved in blood diffuses into alveoli
CO2 bound to Hb, unbinds and diffuses into lungs
HCO3 brought back into RBC, converted back into CO2 and diffuses into lungs

Question 53

How does hypoventilation affect pH?

Answer 53

Causes CO2 retention and build up, leads to increased [H+] causing respiratory acidosis

Question 54

How does hyperventilation affect pH?

Answer 54

Decrease in CO2, leads to decreased [H+] causing alkanosis

Question 55

Define Charle’s Law

Answer 55

Volume of gas is related to absolute temperature

Question 56

Define Henry’s Law

Answer 56

The amount of gas dissolved is determines by the pressure of the gas and it’s solubility in the liquid