Fraction of inspired oxygen

Fraction of inspired oxygen (FiO2) is the molar or volumetric fraction of oxygen in the inhaled gas. Medical patients experiencing difficulty breathing are provided with oxygen-enriched air, which means a higher-than-atmospheric FiO2. Natural air includes 21% oxygen, which is equivalent to FiO2 of 0.21. Oxygen-enriched air has a higher FiO2 than 0.21; up to 1.00 which means 100% oxygen. FiO2 is typically maintained below 0.5 even with mechanical ventilation, to avoid oxygen toxicity,[1] but there are applications when up to 100% is routinely used.

Often used in medicine, the FiO2 is used to represent the percentage of oxygen participating in gas-exchange. If the barometric pressure changes, the FiO2 may remain constant while the partial pressure of oxygen changes with the change in barometric pressure.

Equations

Abbreviated alveolar air equation

PAO2, PEO2, and PiO2 are the partial pressures of oxygen in alveolar, expired, and inspired gas, respectively, and VD/VT is the ratio of physiologic dead space over tidal volume.

Medicine

In medicine, the FiO2 is the assumed percentage of oxygen concentration participating in gas exchange in the alveoli.[2]

Uses

The FiO2 is used in the APACHE II (Acute Physiology and Chronic Health Evaluation II) severity of disease classification system for intensive care unit patients.[3] For FiO2 values equal to or greater than 0.5, the alveolar–arterial gradient value should be used in the APACHE II score calculation. Otherwise, the PaO2 will suffice.[3]

The ratio between partial pressure of oxygen in arterial blood (PaO2) and FiO2 is used as an indicator of hypoxemia per the American-European Consensus Conference on lung injury. A high FiO2 has been shown to alter the ratio of PaO2/FiO2.[2]

PaO
2
/FiO
2
ratio

The ratio of partial pressure arterial oxygen and fraction of inspired oxygen, known as the Horowitz index or Carrico index, is a comparison between the oxygen level in the blood and the oxygen concentration that is breathed. This helps to determine the degree of any problems with how the lungs transfer oxygen to the blood.[4] A sample of arterial blood is collected for this test.[5] A PaO
2
/FiO
2
ratio less than or equal to 200 is necessary for the diagnosis of acute respiratory distress syndrome by the AECC criteria.[6] The more recent Berlin criteria defines mild ARDS at a ratio of <300.

A PaO
2
/FiO
2
ratio less than or equal to 250 is one of the minor criteria for severe community acquired pneumonia (i.e., possible indication for inpatient treatment).

A PaO
2
/FiO
2
ratio less than or equal to 333 is one of the variables in the SMART-COP risk score for intensive respiratory or vasopressor support in community-acquired pneumonia.

Example calculation
After drawing an arterial blood gas sample from a patient the PaO
2
is found to be 100 mmHg. Since the patient is receiving O2-saturated air resulting in a FiO
2
of 50% oxygen his calculated PaO
2
/FiO
2
ratio would be 100 mmHg / 0.5 = 200.

Alveolar air equation

The alveolar air equation is the following formula, used to calculate the partial pressure of alveolar gas:

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gollark: No.
gollark: string operat™.
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gollark: Yes, UTF-8 is in fact backward-compatible with non-extended ASCII, apio.

References

  1. Bitterman H (2009). "Bench-to-bedside review: oxygen as a drug". Crit Care. 13: 205. doi:10.1186/cc7151. PMC 2688103. PMID 19291278.
  2. Allardet-Servent J, Forel JM, Roch A, Guervilly C, Chiche L, Castanier M, et al. (2009). "FIO2 and acute respiratory distress syndrome definition during lung protective ventilation". Crit Care Med. 37 (1): 202–7, e4-6. doi:10.1097/CCM.0b013e31819261db. PMID 19050631.
  3. "APACHE II Score". mdcalc.com. MDCalc. Retrieved 21 September 2017.
  4. Toy P, Popovsky MA, Abraham E, Ambruso DR, Holness LG, Kopko PM, et al. (2005). "Transfusion-related acute lung injury: definition and review". Crit Care Med. 33 (4): 721–6. doi:10.1097/01.ccm.0000159849.94750.51. PMID 15818095.
  5. Tietz NW (Ed): Clinical Guide to Laboratory Tests, 3rd ed. W. B. Saunders, Philadelphia, PA, 1995.
  6. Mason, R. Murray and Nadel's Textbook of Respiratory Medicine, 5th ed. Philadelphia, PA 2010
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