Gas exchange between lungs and tissues

Gas exchange between the air and alveoli
Gases diffuse from regions where their partial pressure is higher to those where it is lower. This difference in composition of gases allows CO2 to diffuse out of the lungs into the air, and for O2 to diffuse from the air into the lungs. ''!!!!look at slides, be able to do those calculations. Note that at high elevation you have same proportions but less partial pressure. know that dead space has pure oxygen. ALSO know arterial oxygen (adjust arterial, the difference is 102 vs 95''

Gas exchange between alveoli and capillaries
O2 also diffuses across the alveolar-capillary membrane due to a difference in partial pressures, though this difference is rather small. It also depends on the lung diffusing capacity DL. Fick’s Law can be used to find the volumetric flow rate:

V̇x = DL*ΔP

Where V̇x is the volumetric flow rate, ΔP is the pressure difference, and DL is the diffusing capacity.

DL describes the permeability of the barrier between alveoli and capillaries. It is directly proportional to the diffusion coefficient of the gas and surface area, and inversely proportional to thickness.

Gas exchange between capillaries and tissue
Gas exchange between capillaries and tissues depends on


 * Partial pressure gradients
 * Surface area
 * Blood perfusion of the tissue