alveolar_PAO2_mmHg: alveolar gas equation
In physiology: Calculate physiologic characteristics of awake and anesthetized adults, children and infants
Description
Usage
Arguments
See Also
Examples
Description
Estimate PAO2 in alveolus based on atmospheric pressure, fraction of oxygen
in inspired air, partial pressure of carbon dioxide in the alveolus, and the
respiratory quotient
Usage
1
2
alveolar_PAO2_mmHg(fi_o2 = 0.209, rq = 0.8, PACO2_mmHg = 40,
Patm_mmHg = 760, PAH2O_mmHg = 47)
Arguments
fi_o2
fraction of oxygen in inspired gas, from 0 to 1, default
reflects (dry) room air
rq
respiratory quotient, i.e., the ratio of CO2 produced to oxygen
consumed, usually between around 0.7 and 1.0, but can legitimately be
greater than 1.0. Default it 0.8.
PACO2_mmHg
partial pressure of CO2 in alveolus, which can be roughly
approximated as the end-tidal pCO2
Patm_mmHg
atmospheric pressure in kPa
PAH2O_mmHg
partial pressure of water vapor at sea level, defaults to
6.25 kPa (47 mmHg) which is appropriate for body temperature
See Also
Other respiratory: deadspace_total
Examples
1
2
3
4
5
6
7
8
9
# vary RQ
rq <- seq(0.6, 1.4, 0.05)
plot(rq, alveolar_PAO2_mmHg(rq = rq))
# 100% fi_o2 at typical atmospheric pressure
alveolar_PAO2_mmHg(fi_o2 = 1)
# hyperbaric oxygen at 100%, 2 atmospheres
alveolar_PAO2_mmHg(fi_o2 = 1, Patm_mmHg = 1520)
physiology documentation built on May 2, 2019, 8:58 a.m.
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Description Usage Arguments See Also Examples
Description
Estimate PAO2 in alveolus based on atmospheric pressure, fraction of oxygen in inspired air, partial pressure of carbon dioxide in the alveolus, and the respiratory quotient
Usage
1 2 | alveolar_PAO2_mmHg(fi_o2 = 0.209, rq = 0.8, PACO2_mmHg = 40,
Patm_mmHg = 760, PAH2O_mmHg = 47)
|
Arguments
fi_o2 |
fraction of oxygen in inspired gas, from 0 to 1, default reflects (dry) room air |
rq |
respiratory quotient, i.e., the ratio of CO2 produced to oxygen consumed, usually between around 0.7 and 1.0, but can legitimately be greater than 1.0. Default it 0.8. |
PACO2_mmHg |
partial pressure of CO2 in alveolus, which can be roughly approximated as the end-tidal pCO2 |
Patm_mmHg |
atmospheric pressure in kPa |
PAH2O_mmHg |
partial pressure of water vapor at sea level, defaults to 6.25 kPa (47 mmHg) which is appropriate for body temperature |
See Also
Other respiratory: deadspace_total
Examples
1 2 3 4 5 6 7 8 9 | # vary RQ
rq <- seq(0.6, 1.4, 0.05)
plot(rq, alveolar_PAO2_mmHg(rq = rq))
# 100% fi_o2 at typical atmospheric pressure
alveolar_PAO2_mmHg(fi_o2 = 1)
# hyperbaric oxygen at 100%, 2 atmospheres
alveolar_PAO2_mmHg(fi_o2 = 1, Patm_mmHg = 1520)
|
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