Alveolar dead space does not affect indirect Fick cardiac output determinations

Abstract

We examined the influence of three variables (different breathing circuits, breath selected for analysis, and alveolar dead space ventilation) on the accuracy of noninvasive cardiac output determinations with the Fick CO2 (indirect) equation. We compared noninvasive determinations with invasive thermodilution measurements over a wide range of cardiac outputs in 17 2-mo-old pigs anesthetized with halothane and nitrous oxide and paralyzed with either pancuronium or d-tubocurare. We found that rebreathing and nonrebreathing circuits provide accurate cardiac output determinations and that the optimal breath for analysis with either the rebreathing or nonrebreathing technique appears to depend on the cardiac output. When alveolar dead space was increased by using positional changes and the intracardiac administration of glass beads, there was still a good correlation between noninvasive and invasive cardiac output determinations. We conclude that both rebreathing and nonrebreathing techniques of indirect Fick cardiac output determinations correlate well with thermodilution measures over a wide range of cardiac outputs and alveolar dead space/tidal volume fractions.