14- Diffusion of Gases in the Lung Flashcards
what happens when you have two time constants for each lung?
non-uniform distribution in the lungs and one lung (the slower one) does not get as much fresh air cause it ends up getting some of the old air from the faster working lung
what determines movement of gases
pressure gradients (differences)
gas pressure
force created when gas molecules strike an object which is determined by density of molecules and temperature
how to calculate partial pressures
from fractional concentration and total pressure
why is water vapor pressure important?
air is saturated with water before entry to alveoli
-water vapor pressure at body temp is 47 mmHg
Henrys Law
concentration of gas in a liquid
= gas x solubility coefficient
solubility coefficient is the “attractiveness of a gas”
what happens to capillaries as you increase lung volume
capillaries get smaller so resistance to flow increases as lung volume increases
- to increase lung volume you need to create a more and more negative pleural pressure which causes veins/arteries to dilate which causes their resistance to decrease
- pulmonary capillaries are embedded in the space between adjacent alveoli
Pathway of gas diffusion in the lung
a) Water and surfactant in the alveoli
b) Alveolar epithelium
c) Epithelial basement membrane
d) Interstitial fluid space
e) Capillary basement
membrane
f) Capillary endothelium and
g) Plasma to reach the red cell membrane
oxygen diffusion order and diffusion relations
oxygen diffuses from alveoli to capillaries and binds to hemoglobin
- diffusion is directly related to pressure gradient, surface area, and gas solubility
- diffusion is inversely related to diffusion distance and gas molecular weight
- pressure gradient, surface area, and distance are determined by the membrane
- gas solubility and molecular weight are characteristics of the gas and determine the diffusion coefficient
Lung Diffusing Capacity (DL)
-calculated as gas uptake/average pressure gradient for diffusion
BUT WE ACTUALLY USE THE FOLLOWING TO ESTIMATE THE MEASUREMENTS
- lung diffusing capacity is estimated measuring uptake of CO
- due to rapid CO uptake by hemoglobin, PC remains at zero; thus DL = CO uptake/PACO
O2 rate of equilibration
- rate of equilibration of O2 between alveoli and pulmonary capillaries
- Note there is an increased equilibration time when DL is below normal
CO2 rate of equilibration
- rate of equilibration of CO2 between alveoli and pulmonary capillaries
- in comparison to previous slide equilibration time is greater for CO2 than for O2, but CO2 is affected relatively less by a reduced DM
rate of alveolar-capillary diffusion
- exercise reduces pulmonary transit time, so if diffusion is sufficiently abnormal then equilibrium between alveoli and capillaries will not be reached
- rate of equilibration between alveoli and capillaries is reduced during hypoxia
Pneumonia and emphysema
- decrease diffusion in the lung
- pneumonia: fluid and blood cells in the alveoli so O2 cant get in as easily
- emphysema: reduction in surface area cause the alveoli shrink
list the conditions that affect diffusion in the lung
- emphysema
- pneumonia/pulmonary edema
- pulmonary fibrosis
- exercise
- acute hypoxia
- Acute Respiratory distress syndrome (ARDS)
