Pulmonary Blood Flow and Gas Exchange and Transport 1

Question 1

How does alveolar ventilation and compliance change with height from the base to the apex?

Answer 1

Both of them decline

Question 2

Why does compliance decline with height from the base to the apex?

Answer 2

Alveoli are more inflated at FRC at the apex, since the ones at the base are more compressed

Question 3

What does the alveoli at the apex being more inflated than the ones at the base mean for changes in intrapleural pressure?

Answer 3

Changes in pressure brings about bigger changes in alveolar volume at the base

Question 4

What does the pulmonary vein carry?

Answer 4

Oxygenated blood from the lungs to the heart

Question 5

What does the pulmonary artery carry?

Answer 5

Deoxygenated blood from the heart to the lungs

Question 6

What are the 2 kinds of blood supply to the lungs?

Answer 6

Bronchial circulation

Pulmonary circulation

Question 7

What is the purpose of bronchial circulation?

Answer 7

Supply the lungs with nutrients

Question 8

What circulation supplies the lungs with nutients?

Answer 8

Bronchial circulation

Question 9

What is bronchial circulation supplied via?

Answer 9

Bronchial arteries from systematic circulation to supply oxygenated blood to airway smooth muscle, nerves and lung tissue

Question 10

What is the purpose of pulmonary circulation?

Answer 10

Gas exchange

Question 11

What circulation is used for gas exchange?

Answer 11

Pulmonary circulation

Question 12

What does pulmonary circulation consist of?

Answer 12

Left and right pulmonary arteries originating from the right ventricle

Question 13

What does pulmonary circulation do?

Answer 13

Carries entire cardiac output from right ventricle, supplying dense capillary network surrounding the alveoli and returns oxygenated blood to the left atrium via the pulmonary vein

Question 14

What kind of system is the pulmonary circulation?

Answer 14

High flow, low pressure

Question 15

How does air diffuse across membranes?

Answer 15

Down its partial gradiants

Question 16

What does gas exchange occur due to?

Answer 16

Presence of partial pressures

Question 17

Where is the partial pressure of oxygen highest?

Answer 17

In arterial circulation

Question 18

Where is the partial pressure of carbon dioxide highest?

Answer 18

In venous circulation

Question 19

What does the abbreviation “A” mean in regards to partial pressures?

Answer 19

Alveolar

Question 20

What does the abbreviation “a” mean in regards to partial pressures?

Answer 20

Arterial blood

Question 21

What does the abbreviation “v” mean with regards to partial pressures?

Answer 21

Mixed venous blood (such as pulmonary artery)

Question 22

What does P_aO₂ mean?

Answer 22

Partial pressure of oxygen in arterial blood

Question 23

What does P_ACO₂ mean?

Answer 23

Partial pressure of carbon dioxide in alveolar air

Question 24

What does mixed venous blood (v) reflect the values of?

Answer 24

Values in tissue

Question 25

What does arterial blood (a) reflect the values of?

Answer 25

Values of lungs

Question 26

What rules does the diffusion of gases follow?

Answer 26

Rules for simple diffusion:

Moves across a membrane that is permeable to that gas

Moves down it’s partial pressure grandient until equilbrium is reached

Question 27

What must a membrane be for a gas to diffuse across it?

Answer 27

Permeable to that gas

Question 28

When does a gas stop diffusing down it’s concentration gradient?

Answer 28

When equilbrium is reached

Question 29

What is the rate of diffusion across a membrane directly proportional to?

Answer 29

Partial pressure gradient

Gas solubility

Surface area

Question 30

What is the rate of diffusion across a membrane inversely proportionate to?

Answer 30

Thickness of the membrane

Question 31

When is diffusion most rapid?

Answer 31

Over short distances

Question 32

Why does oxygen diffuse quicker than carbon dioxide, but no as great as might be expected?

Answer 32

Oxygen has a much greater partial pressure gradient

Carbon dioxide is much more soluble

Question 33

What is the typical diffusion rate of oxygen?

Answer 33

250ml/min

Question 34

What is the typical diffusion rate of carbon dioxide?

Answer 34

200ml/min

Question 35

What does partial pressure in the alveoli reflect?

Answer 35

Systemic arterial blood

Question 36

What does partial pressure in pulmonary arteries reflect?

Answer 36

Partial pressure at tissues

Question 37

What are the typical partial pressure values for oxygen and CO₂ in alveoli?

Answer 37

Oxygen 100mmHg

Carbon dioxide 40mmHg

Question 38

What are the typical partial pressure values for oxygen and CO₂ in the pulmonary arteries?

Answer 38

Oxygen 40mmHg

Carbon dioxide 46mmHg

Question 39

What are some pathologies that affect gas exchange?

Answer 39

Emphysema

Fibrotic lung disease

Pulmonary edema

Asthma

Question 40

How does emphysema affect gas exchange?

Answer 40

Destruction of alveoli reduces surface area for gas exchange

Question 41

What disease reduces the surface area for gas exchange?

Answer 41

Emphysema

Question 42

How does fibrotic lung disease affect gas exchange?

Answer 42

Thickened alveolar membrane slows gas exchange, loss of lung compliance may decrease alveolar ventilation

Question 43

What disease thickens alveolar membranes and slows gas exchange?

Answer 43

Fibrotic lung disease

Question 44

How does a pulmonary edema affect gas exchange?

Answer 44

Fluid in interstitial space increases diffusion distance

Arterial P_CO2 may be normal due to higher CO₂ solubility in water

Question 45

What disease causes fluid in interstitial space that increases the distance gas needs to diffuse?

Answer 45

Pulmonary edema

Question 46

How does asthma affect gas exchange?

Answer 46

Increased airway resistance decreases airway ventilation

Question 47

What disease increases airway resistance and decreases alveolar ventilation?

Answer 47

Asthma

Question 48

What is present to help diffusion between alveoli and red blood cells?

Answer 48

Alveoli have a large surface area

Thin membrane between the two for a short diffusion distance

Question 49

What does this show the histology of?

Answer 49

Fibrotic alveoli

Question 50

What does this chest X-ray show?

Answer 50

Fibrosis

Question 51

What does this histology show?

Answer 51

Pulmonary oedema

Question 52

What disease has this lung suffered from?

Answer 52

Emphysema

Question 53

How should ventilation and perfusion compare to each other?

Answer 53

Complement each other

Question 54

What is ventilation?

Answer 54

Air getting to alveoli in L/min

Question 55

What is perfusion?

Answer 55

Local blood flow in L/min

Question 56

How do blood flow and ventilation change with heigh across the lung?

Answer 56

Both decrease

Question 57

How does blood flow compare to ventilation at the base of the lung and why?

Answer 57

Blood flow is higher than ventilation due to arterial pressure exceeding alveolar pressure, which compresses the alveoli

Question 58

Why are alveoli at the base of the lung compressed?

Answer 58

Because arterial pressure exceeds alveolar pressure

Question 59

How does blood flow compare to ventilation at the apex?

Answer 59

Blood flow is less than ventilation at the apex because arterial pressure is less than alveolar pressure, which compresses the arteries

Question 60

Why are the arteries compressed at the apex of the lung?

Answer 60

Because arterial pressure is less than alveolar pressure

Question 61

Where in the lung are alveoli and arteries compressed?

Answer 61

Alveoli are compressed at the base

Arteries are compressed at the apex

Question 62

How does blood flow and ventilation compare between the apex and the base of the lung?

Answer 62

Both are smaller at the apex, but at the base blood flow is greater than ventilation whereas at the apex ventilation is greater than blood flow

Question 63

Why does the ratio of ventilation to perfusion change within the lung between the base and the apex?

Answer 63

Due to difference between alveolar and arterial pressures, and because of gravity

Question 64

What is a perfectly matched ventilation/perfusion ratio?

Answer 64

1

Question 65

What is a mismatch ventilation:perfusion ratio?

Answer 65

Anything greater than or less than 1

Question 66

How much of a healthy lung performs well in matching perfusion and ventilation?

Answer 66

Over 75%

Question 67

Where does majority of the ventilation:perfusion mismatch take place?

Answer 67

Apex

Question 68

What occurs at the apex to try and keep the ventilation:perfusion ratio near 1?

Answer 68

Auto regulation, diverting blood to better ventilated alveoli

Question 69

What happens if ventilation becomes less than perfusion?

Answer 69

P_CO2 increases and P_O2 decreases

Blood flowing past those alveoli does not get oxygenated

Question 70

What is alveolar dead space?

Answer 70

When ventilation is greater than blood flow

Question 71

What is shunt?

Answer 71

When blood flow is greater than ventilation

Question 72

What happens when ventilation is greater than blood flow?

Answer 72

Increase in alveolar P_O2 causing pulmonary vasodilation

Decrease in alveolar P_CO2 causing mild bronchial constriction

Question 73

What is the response to alveolar dead space?

Answer 73

Increase perfusion and to lesser the extent decrease ventilation to bring the ratio back towards 1

Question 74

What is anatomical dead space?

Answer 74

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

Question 75

What is the air in conducting zones of the respiratory tract that is unable to participate in gas exchange due to the wall being to thick called?

Answer 75

Anatomical dead space

Question 76

What is physiologic dead space?

Answer 76

Alveolar dead space + anatomical dead space

Question 77

What is alveolar dead space + anatomical dead space?

Answer 77

Physiologic dead space

Question 78

How would you describe pulmonary arterial pressures?

Answer 78

Low

Question 79

What are typical sysolic and diastolic pulmonary arterial pressures?

Answer 79

Systolic 25mmHg

Diastolic 8mmHg

Question 80

What is the low pressure of the pulmonary arterial blood flow more susceptable to?

Answer 80

Effects of gravity which gives rise to a greater degree of variability in blood flow within the lung, the base being highly perfused compared to the apex

Question 81

Why is the base highly perfused compared to the apex?

Answer 81

Gravity having a great impact on the vessels due to the low pressure

Question 82

Why are the overall diffusion rates of CO₂ and oxygen similar dispite CO₂ diffusing much faster?

Answer 82

Oxygen has a greater partial pressure difference