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Literature DB >> 4441861

Mixed venous and arterial Pco2.

Abstract

The rebreathing method of measuring oxygenated mixed venous Pco(2) (Pvco(2)) was originally introduced as a bloodless way to estimate arterial Pco(2) (Paco(2)). It has become common practice to subtract 6 mm Hg from the Pvco(2) to obtain the Paco(2) but there are many circumstances in which this leads to an overestimate of the Paco(2). Measurements of Pvco(2) and Paco(2) in 19 patients have shown that a better approximation to Paco(2) under normal conditions of cardiac output and arterial O(2) saturation is Paco(2) = 0.8 Pvco(2). These studies also showed that the Pvco(2) - Paco(2) difference may be much wider, particularly in the presence of arterial unsaturation and a low cardiac output.The factors governing the venoarterial Pco(2) difference are reviewed and their magnitude is calculated to emphasize the complementary roles of measurements of Pvco(2) and Paco(2) in the assessment of patients with cardiorespiratory disease.

Entities: Chemical Disease Species

Mesh：

Substances：
Carbon Dioxide
Oxygen

Year: 1974 PMID： 4441861 PMCID： PMC1612833 DOI： 10.1136/bmj.4.5946.687

Source DB: PubMed Journal: Br Med J ISSN： 0007-1447

10 in total

1. Rebreathing method for measurement of mixed venous PCO2.

Authors: E J CAMPBELL; J B HOWELL
Journal: Br Med J Date: 1962-09-08

2. Simple rapid methods of estimating arterial and mixed venous pCO2.

Authors: E J CAMPBELL; J B HOWELL
Journal: Br Med J Date: 1960-02-13

3. Estimation of arterial CO2 tension by rebreathing technique.

Authors: J D HACKNEY; C H SEARS; C R COLLIER
Journal: J Appl Physiol Date: 1958-05 Impact factor: 3.531

4. The absorption and dissociation of carbon dioxide by human blood.

Authors: J Christiansen; C G Douglas; J S Haldane
Journal: J Physiol Date: 1914-07-14 Impact factor: 5.182

5. Alveolar-arterial PCO2 difference during rebreathing in patients with chronic hypercapnia.

Authors: J D McEvoy; N L Jones; E J Campbell
Journal: J Appl Physiol Date: 1973-10 Impact factor: 3.531

6. Recirculation time during exercise.

Authors: E Sowton; D Bloomfield; N L Jones; B E Higgs; E J Campbell
Journal: Cardiovasc Res Date: 1968-10 Impact factor: 10.787

7. Alveolar-to-blood PCO2 difference during rebreathing in exercise.

Authors: N L Jones; E J Campbell; R H Edwards; W G Wilkoff
Journal: J Appl Physiol Date: 1969-09 Impact factor: 3.531

8. The estimation of carbon dioxide pressure of mixed venous blood during exercise.

Authors: N L Jones; E J Campbell; G J McHardy; B E Higgs; M Clode
Journal: Clin Sci Date: 1967-04 Impact factor: 6.124

9. The relationship between the differences in pressure and content of carbon dioxide in arterial and venous blood.

Authors: G J McHardy
Journal: Clin Sci Date: 1967-04 Impact factor: 6.124

10. Digital computer procedure for the conversion of PCO2 into blood CO2 content.

Authors: G R Kelman
Journal: Respir Physiol Date: 1967-08

10 in total

7 in total

6. Accuracy of an indirect carbon dioxide Fick method in determination of the cardiac output in critically ill mechanically ventilated patients.

Authors: L Blanch; R Fernández; S Benito; J Mancebo; N Calaf; A Net
Journal: Intensive Care Med Date: 1988 Impact factor: 17.440

7. Mystery of PCO₂ Gap in Sepsis.

Authors: Vijaya P Patil
Journal: Indian J Crit Care Med Date: 2019-10