Oxygen therapy: Difference between revisions

Line 43: Line 43:
**FiO2 - start with 100% and taper down from there
**FiO2 - start with 100% and taper down from there
*Pediatrics
*Pediatrics
* FiO2 - Start 40% and titrate up
**FiO2 - Start 40% and titrate up
* Flow - based on their age and weight.  
**Flow - based on their age and weight.  
**<1 yr -  2 L/kg/min.
***<1 yr -  2 L/kg/min.
**>1yr -  1 L/kg/min.
***>1yr -  1 L/kg/min.


==Hyperbaric Oxygen (HBO)==
==Hyperbaric Oxygen (HBO)==

Revision as of 19:51, 6 April 2020

Standard Administration Options

Device L/min % Oxygen Comments
Nasal Cannula 1 24%
2 28%
3 32%
4 36%
5 40%
6 44%
Venturi mask 24-50% Increasing flow will not alter FiO2
Oxygen tent 10-15 21-50% Used mainly on children with croup or pneumonia
Simple mask 5-15 35-55% Never used at flows less than 5 L/min to prevent rebreathing of CO2
Trach mask 10-15 35-60% Adequate flow shown by mist flowing out the exhalation port at all times
Partial rebreathing mask 8-15 35-60% Flow rate must be sufficient to keep bag 1/3 to 1/2 inflated at all times
Aerosol mask 8-15 21-99%
Non-rebreathing mask 8-15 (or max) 60-99% Flow rate must be sufficient to keep bag 1/3 to 1/2 inflated at all times

High-flow Nasal Cannula

  • Different Setup to low-flow O2 therapy
  • Good for hypoxemic respiratory failure
  • Every 10L/min is similar to 1mmHg PEEP
  • Set flow and FiO2%
  • Adults
    • Flow - start with 0.5 L/kg/min (Max 60L)
    • FiO2 - start with 100% and taper down from there
  • Pediatrics
    • FiO2 - Start 40% and titrate up
    • Flow - based on their age and weight.
      • <1 yr - 2 L/kg/min.
      • >1yr - 1 L/kg/min.

Hyperbaric Oxygen (HBO)

  • Two methods of administration[1]
    1. Small, single-occupant chamber filled with 100% oxygen and pressurized to desired level
    2. Large, multi-occupant chamber filled with room air and pressurized to desired level - occupants breathe supplemental oxygen at ambient pressure via mask
  • Rationale for use[1]
    • At normal pressures (even with supplemental oxygen administration), very little oxygen is dissolved in plasma
    • When oxygen provided at 3 ATA, there is enough oxygen dissolved in plasma to oxygenate all body tissues without resorting to hemoglobin-bound oxygen

See Also

External Links

References

  1. 1.0 1.1 Bitterman H. Bench-to-bedside review: Oxygen as a drug. Critical Care. 2009;13(1):205. doi:10.1186/cc7151.