British Journal of Anaesthesia

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British Journal of Anaesthesia, 2000, Vol. 85, No. 3 371-378
© 2000 The Board of Management and Trustees of the British Journal of Anaesthesia

Estimation of pulmonary blood flow from sinusoidal gas exchange during anaesthesia: a theoretical study

M. J. Turner¹, D. Weismann², G. G. Járos¹ and A. B. Baker¹

¹Department of Anaesthesia, The University of Sydney, NSW 2060, Australia. ²Drägerwerk AG, Moislinger Allee 53–55, D-23542 Lübeck, Germany*Corresponding author

We simulated the use of simultaneous sinusoidal changes of inspired O₂ and N₂O (Williams et al., J Appl Physiol, 1994; 76: 2130–9) at fractional concentrations up to 0.3 and 0.7, respectively, to estimate FRC and pulmonary blood flow (PBF) during anaesthesia, using O₂ as an insoluble indicator. Hahn’s approximate equations, which neglect the effect of pulmonary uptake and excretion on expiratory flow, estimate dead space and alveolar volume (V_A) with systematic errors less than 10%, but yield systematic errors in PBF which are approximately proportional to FI_N2O in magnitude. A correction factor (1 – )^–1 for Hahn’s equations for PBF (where is the mean partial pressure of the soluble indicator) reduces the dependence of PBF estimates on FI_N2O, and the solution of equations describing the simultaneous mass balance of both indicators yields accurate results for a wide range of mean FI_N2O. However, PBF estimates are sensitive to measurement errors and a third gas must be present to ensure that the indicator gases behave independently.

Br J Anaesth 2000; 85: 371–8

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