3. Old stuff
          3.2. Old physio stuff (around 2005)
              3.2.3. Physiology
                  3.2.3.13. Respiratory
                      3.2.3.13.3. Gas carriage
                          3.2.3.13.3.4. Oxygen
 3.2.3.13.3.4.3. Oxygen flux 

Oxygen flux

O2 flux
= Amount of oxygen delivered to the peripheral tissues per minute.

  • i.e. content delivered per minute
  • NOT just content (which is a volume, not vol/min)

Oxygen flux

O2 flux
= O2 bound to Hb + Dissolved O2

Oxygen bound to Hb

Oxygen bound to Hb
= Cardiac output x [Hb] x SO2 x k

  • CO = cardiac output (L/min)
  • [Hb] (g/L)
  • SO2 = saturation (as fraction)
  • k is Hufner's number
    * Amount of O2 that can bind with 1g of Hb when fully saturated
    * Normal value = 1.34mLs O2/g of Hb

Dissolved O2

Dissolved O2
= CO x pO2 x 0.03

  • PO2 = partial pressure (mmHg)
  • 0.03mL O2 per mmHg per L of blood can be dissolved.

Total oxygen flux

Arterial O2 flux is
= 5 x 150 x 0.98 x 1.34 + 5 x 100 x 0.03
= 984.9 + 15
= appr. 1000mL O2 per min

  • Assumes cardiac output of 5L/min
  • Assumes [Hb] = 150g/L
  • Assumes SaO2 = 98% and PO2 = 100mmHg
  • pH 7.4, temp = 37

 

Similarly,

Mixed venous O2 delivery rate is
= 5 x 150 x 0.75 x 1.34 + 5 x 40 x 0.03
= 753.75 + 6
=759.75
= appro. 750mL O2 per min

  • Assumes SvO2 of 75% and PvO2 of 40mmHg

 

Summary

  • Total O2 flux = 1000mL O2 / min
  • Arterial [O2] = 20mL O2/100mL blood
  • Mixed venous [O2] = 15mL O2/100mL blood
  • Normal basal consumption of O2 = 250mL/min

NB:

  • PaO2 = 100mmHg
  • PvO2 = 40mmHg

Or

  • SaO2 = 98% (or 97.5%)
  • SvO2 = 75%

Thus,

  • CaO2 = 20mL O2/dL
  • CvO2 = 15mL O2/dL (appro)