Respiratory Physiology Lecture 4 Part 19/ 20: Gas Exchange

Question 1

Why do gases have pressure?

Answer 1

Gas molecules are constantly in motion and this motion exerts a pressure

Question 2

What does gas pressure increase to?

Answer 2

Pressure increases in response to anything that increases movement

• Temperature
• Concentration of gas molecules

Question 3

Dalton’s Law:

Answer 3

in a mixture of gases (eg. Air), each gas operates independently

• Thus,total pressure is the sum of individual pressures (Partial pressures)

Question 4

Partial pressures of air

Answer 4

Question 5

What happens to air as it is breathed in?

Answer 5

becomes more H₂O because it is humdified

Question 6

P_atm at sea level

Answer 6

760 mmHg

Question 7

Partial pressure of atmosphere gas components?

Answer 7

Question 8

How does gas get across the blood-gas barrier

Answer 8

diffusion via ficks law

Question 9

Fick’s Law

Answer 9

The rate of transfer of a gas through a sheet of tissue/unit time (V; L/min) is proportional to the tissue area and the difference in gas partial pressure between the two sides, a diffusion constant, and inversely proportional to the tissue thickness.

Question 10

Ficks Law equation

Answer 10

Question 11

What is the diffusion constant (D)?

Answer 11

The amount of gas transferred between the alveoli and the blood/unit time

Question 12

What is diffusion proportional to?

Answer 12

Diffusion is also proportional to the gas solubility (Sol) in fluids or in tissue

Question 13

What influences the diffusion process?

Answer 13

The solubility of the gas in a fluid influences the diffusion process

Question 14

Solubility of CO₂ vs O₂

Answer 14

CO2 solubility is much higher than O2

• The bond between carbon and oxygen is not as polar as the bond between hydrogen and oxygen, but it is polar enough that carbon dioxide can dissolve in water. This is why, carbon dioxide is highly soluble in water rather than carbon monoxide and oxygen.
• CO2 and O2 similar molecular weight therefore CO2 diffuses 20 times more rapidly than O2

Question 15

Henry’s Law:

Answer 15

the amount of gas dissolved in a liquid is directly proportional to the partial pressure of gas in which the liquid is in equilibrium

Question 16

Partial pressures are the same in __________

Answer 16

gas and liquid

• Henrys law

Question 17

Partial pressures are the same in __________

Answer 17

gas and liquid

• Henrys law

Question 18

AMOUNT OF GAS IN LIQUID is also determined by

Answer 18

its solubility

• Concentration of a GAS (In liquid) = P x solubility
• Thus, if two gases are at the same partial pressure but differ in solubility, their content within solution will differ

Question 19

How does gas contribute to partial pressure?

Answer 19

Only gas that is dissolved in solution contributes to partial pressure

• (ie. If O2 bound to Hb, no longer dissolved in solution - important later for gas transport in blood)

Question 20

How is gas coming in humidified?

Answer 20

comes in contact with wet mucous membrane

Question 21

Partial pressure of gases

Answer 21

• Air
  
  • PO2 = 160 mmHg
  • PCO2 = 0.3 mmHg
• Alveoli
  
  • PO2 = 105 mmHg
  • PCO2 = 40 mmHg
• pulmonary veins
  
  • PO2 = 100 mmHg
  • PCO2 = 40 mmHg
• pulmonary arteries
  
  • PO2 = 40 mmHg
  • PCO2 = 46 mmHg

Question 22

Why is P_O2 in AIR > P_O2 in ALVEOLI?

Answer 22

1. Warming ↑ and humidification of air in respiratory tract:↓ PO2
2. Loss of O2 to blood diffusion: ↓ PO2
3. Mixing of inspired air with functional residual volume: ↓ PO2

Question 23

Determinants of alveolar P_O2

Answer 23

• P_O2 in the atmosphere
• Alveolar ventilation (V_A
  
  • V_A = (V_T – V_D) x respiratory frequency
• Metabolic rate
• Perfusion

Question 24

Determinants of alveolar PCO2:

Answer 24

• P_CO2 in the atmosphere (Essentially zero)
• Alveolar ventilation (V_A)
  
  • Decrease V_A there will be less exhalation from the alveoli to the atmosphere P_CO2 will be increased at level of alveoli
• Metabolic rate
• Perfusion

Question 25

How does metabolic rate effect alveolar P_O2 and P_CO2?

Answer 25

Exercise muscles use more oxygen so P_O2 going back is smaller than even the 40 and will increase the pressure differential so P_O2 at the level of alveoli will be decreased and more CO2 being produced so P_CO2 will be greater

Question 26

Increasing ALVEOLAR VENTILATION will …?

Answer 26

Increasing ALVEOLAR VENTILATION will increase alveolar P_O2 and decrease alveolar P_CO2

Question 27

Increasing METABOLIC RATE will…?

Answer 27

Increasing METABOLIC RATE (O2 consumption and CO2 production) will decrease alveolar P_O2 and increase P_CO2