5 - Partial Pressure and Diffusion

Question 1

What is Boyle’s law and what can it be applied to in respiratory?

Answer 1

• Pressure (KPa) of a fixed quantity of gas at a constant temperature is inversely proportional to it’s volume
• P = nR.T/V

Question 2

Answer 2

Question 3

What is Dalton’s Law?

Answer 3

Each gas exerts a partial pressure proportional to it’s volume. e.g 20.9% oxygen

Question 4

What is atmospheric pressure and how much of this is oxygen?

Answer 4

• 101 KPa at sea level, decreases as altitude increases
• 20% oxygen

Question 5

What is the pO2 and pCO2 in arteries, veins, alveoli and conducting airways?

Answer 5

Question 6

Why is the partial pressure of oxygen lower in the alveoli than in the conducting airways?

Answer 6

Because when air enters the airways it becomes warmed and moistened so water vapour is added, which is 6.28KPa, need to subtract this from 101KPa

Question 7

What is the relation of gases in liquid and gases in gas (e.g at the alveolar fluid interface)

Answer 7

At equilibrium the partial pressure of the gas in the liquid is equal to the partial pressure of the gas in the gas phase in contact with the liquid

Question 8

What is the difference between partial pressure of gas and the amount of gas dissolved?

Answer 8

Amount of gas dissolved (mmol/L): Partial pressure (KPa) x Solubility coefficient of gas (depends on temp)

(Henry’s Law)

Question 9

What is the amount of oxygen dissolved in plasma and how is the demand for oxygen in the body achieved?

Answer 9

• Amount dissolved = 0.01mmol/L/KPa x 13.3 KPa = 0.13 mmol/l

- O₂ dissolves into blood and associates with Hb. When fully saturated 8.8mmol/L

• Total O₂ = 8.8 (99%) + 0.13 (1%) = 8.93mmol/L

Question 10

What is saturated vapour pressure?

Answer 10

At equilibrium the gas mixture is saturated with water vapour that exerts a pressure of 6.28kPa at 37 degrees

Question 11

What is pO₂ and pN₂ of humidified air?

Answer 11

pATM = 101

SVP = 6.28 kPa

pO_{2 =} (101-6.28) x 0.2 = 19.8KPa

pN₂ is 78% of air

Question 12

What is alveolar pCO₂ and pO₂ determined by?

Answer 12

Rate at which O₂ is taken up by the blood and the rate it is replenished by ventilation. Opposite for CO₂

Because of pressure gradients CO₂ moves out and O₂ in

Question 13

What factors affect the rate of diffusion in the lungs?

Answer 13

• Surface area (70m²)
• Gradient of partial pressure
• Thickness (0.6 micron)
• Solubility of gas
• MWt (less so than above)

Question 14

What are the layers that gases have to pass through from the alveoli to the blood?

Answer 14

Question 15

In lung disease where there is a diffusion defect, e.g emphysema, what happens to the arterial pO₂ and pCO₂?

Answer 15

- pCO₂ not usually affected as it diffuses 21 times faster than O₂ as more soluble in water. Only falls in late stage of disease

- pO₂ will fall

• Need to keep alveolar pressure relatively stable to perfuse the blood with what it requires in the half a second. Done by ventilation

Question 16

What does hypo and hyperventilation do to pCO₂ and pO₂?

Answer 16

Question 17

What are some diseases that cause diffusion defects in the lungs?

Answer 17

Question 18

How do you measure diffusion resistance in the lungs?

Answer 18

Question 19

Why do you get decompression sickness from diving?

Answer 19

Double the atmospheric pressure so double the amount of nitrogen that dissolves in the blood so when you come back up to normal pressure the nitrogen goes back to gas and forms painful bubbles

Question 20

What will happen to the pO₂ of somebody climbing Mt Everest?

Answer 20

Atmospheric pressure drops so pO₂ of oxygen will fall, may not be able to perfuse