Chapter 3: Diffusion

Question 1

Describe Fick’s Law as applies to pulmonary physiology

Answer 1

Fick’s Law of Diffusion of gasses describes the rate of diffusion of a gas through a tissue slice. The law states that the rate of diffusion is directly proportional to area, pressure gradient, and diffusion constant, while being inversely proportional to thickness.

Question 2

Describe the definition of the gas diffusion constant in pulmonary physiology

Answer 2

D is directly proportional to gas solubility, and inversely proportional to the square root of molecular weight

Question 3

Which gas has a higher diffusion constant, oxygen or carbon dioxide? Why?

Answer 3

Carbon dioxide, because it is much more soluble in water than oxygen.

Question 4

At rest, how long does it take PaO2 to reach PAO2?

Answer 4

About 0.25 seconds

Question 5

What is the capillary transit time of pulmonary blood during intense exercise?

Answer 5

About 0.25 seconds

Question 6

In what ways is the diffusion process challenged?

Answer 6

Exercise, alveolar hypoxia, thickening of the blood-gas barrier

Question 7

Why is carbon monoxide used to measure diffusing capacity?

Answer 7

Uptake of carbon monoxide in the lungs is diffusion-limited, not perfusion-limited

Question 8

What is the normal diffusing capacity of CO?

Answer 8

~25 mL per min per mm Hg

Question 9

What happens to diffusing capacity on exercise?

Answer 9

Increases

Question 10

Why does diffusing capacity increase on exercise?

Answer 10

Extra blood flow from recruitment and distension of pulmonary blood vessels

Question 11

Name the two components of resistance to oxygen uptake by RBCs

Answer 11

Diffusion across membranes and through plasma and reaction to bind with hemoglobin

Question 12

Is nitrous oxide diffusion limited or perfusion limited?

Answer 12

Perfusion

Question 13

Is oxygen diffusion limited or perfusion limited?

Answer 13

Usually perfusion, but diffusion limited under conditions of intense exercise, alveolar hypoxia, and thickening of the blood-gas barrier

Question 14

Name four conditions that decrease diffusion of gases across the blood-gas barrier

Answer 14

1) Emphysema - loss of pulmonary capillaries, less area
2) Asbestosis - thickening of the blood-gas barrier
3) Pulmonary embolism - decreased blood supply
4) Severe anemia - no reservoir in RBCs to act as a straw sucking oxygen (or CO) across from the alveolus

Question 15

Compare the saturation rates of nitrous oxide and carbon monoxide in arterial blood

Answer 15

Both gasses have good solubility in water. However, nitrous oxide does not bind to hemoglobin, while CO (and oxygen) do. Thus, CO is sequestered in RBCs very quickly, which maintains the pressure gradient across the alveolar interstitium. Thus, nitrous oxide saturates quickly, while CO is taken up continuously while capillary blood transits the alveoli.