Kategorien: Alle - diffusion - alveoli - ventilation - solubility

von Melissa Ouellette Vor 2 Jahren

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PulmonaryVentilation

The efficiency of pulmonary ventilation hinges on the balance between anatomic and physiologic dead space, where the latter refers to areas in the lungs with poor ventilation-perfusion ratios.

PulmonaryVentilation

PulmonaryVentilation

Aveolar Ventilation

elastic and thin walled membranous sacs
surface for gas exchange

at rest, 250 ml of O2 leave alveoli to blood, and 200 ml of CO2 diffuse into alveoli

during heavy exercise, 25X increase in quantity of oxygen transfer

blood supply to alveolar tissue is the greatest to any organ in the body

Solubility

determins the number of molecules that move into or out of a fluid
exchange of gas between lungs and blood is made at the tissue level

expressed in milliliters

Henry's Law

mass of a gas that disolves in a fluid at a given temperature varies in direct proprtion to the pressure of gas over liquid
rate of gas diffusion into a fluid depends on two factors

pressure differential between gas above fluid and gas dissolved in fluid

solubility of the gas in fluid

dead space

physiologic dead space
gas exchange between the alveoli and blood

the portion of alveolar volume with poor V/Q ratio

adequate gas exchange is impossible if physiologic dead space is >60%

anatomic dead space
not involved in gas exchange

volume or air that is in conducting airways