3. Physiology
        3.16. SAQs
            3.16.12. Respiratory
                3.16.12.3. Ventilation-perfusion inequalities
3.16.12.3.2. V/Q inequality and its effect on PaO2 and PaCO2

V/Q inequality and its effect on PaO2 and PaCO2

"Compare the effect on arterial blood CO2 and O2 levels of ventilation/perfusion inequalities (1997)"

Ventilation/perfusion (V/Q ratio)

V/Q ratio and O2-CO2 diagram

In an erect person,

Because the increase in perfusion is greater than that of ventilation

=> V/Q decreases from apex to base

=> 3.3 to 0.63

 

[O2-CO2 diagram - Graph of V/Q (X-PAO2, Y-PACO2) 20050118(1)]

 

Arterial partial pressure

Concentration/partial pressure of any gas in steady state is determined by V/Q ratio

At apex (higher V/Q)

(comparing with base (lower V/Q))

 

V/Q scatter and effects on PaO2

As V/Q inequality lowers PaO2 because:

  1. more blood goes through areas of low V/Q (e.g. base)
  2. shape of oxygen dissociation curve

Shape of oxygen dissociation curve

Alveoli with high V/Q ratio are on the flatter part of the haemoglobin dissociation curve than alveoli with a low V/Q.

=> the increase in O2 content associated with an increase in PaO2 is LESS than
the decrease in O2 content associated with a decrease in PaO2 of the same magnitude

=> the beneficial effect of high V/Q on oxygen content is not enough to compensate for the adverse effect of low V/Q on oxygen content.

 

V/Q scatter and effects on PaCO2

PaCO2 MAY increase, but not as much as the decrease in PaO2 because:

  1. more linear CO2 dissociation curve
    => the CO2 content change due to an increase in PaCO2 and a decrease in PaCO2 of the same magnitude are not so different
    => high V/Q units can compensate better
  2. steeper CO2 dissociation curve
    => CO2 content changes lead to much smaller change in its partial pressure (when compared with O2)

In practice, PaCO2 may decrease because:

=> Increase V/Q scatter

=> decreased PaO2

=> compensatory hyperventilation

=> increased PaCO2 elimination

=> PaCO2 often reduced rather than increased

Increases in PaCO2 are seldom caused by V/Q scatter.

Effects of increased FIO2

If oxygenation is impaired by V/Q scatter, increases in FIO2 will cause the PaO2 to approach the normal PaO2 value for that particular FIO2.

At FIO2 of 100%, V/Q scatter has almost no effect on PaO2.

=> This is not the case with true shunt. With significant true shunt, increased FIO2 would little effect on PaO2

Examiner's comment

About
Created20050227
Updated20050227


Table of contents  | Bibliography  | Index