Ventilatory Interaction between Oxygen and Carbon Dioxide in the Preterm Primate

Abstract

The steady state ventilatory response to inhaled CO₂ was measured in eleven unanesthetized premature Macaca nemestrina during the first 3 wk of life in different steady state background O₂ mixtures hypoxia (FIO₂ = 0.08 or 0.12), normoxia (FIO₂ = 0.21) and hyperoxia (FIO₂ = 0.96). Hyperoxic ΔV_I/ΔPACO₂ and Δ P₀.₂/ΔPACO₂ were significantly greater than hypoxic ΔV_I/ΔPACO₂ and ΔP_0.2/ΔPACO₂, respectively, at both 2 and 21 days postnatal age by the Mann Whitney test of nonparametric ranking (2 days: 89.6 and 80.2^° versus 88.7 and 56.4^°, respectively; 21 days: 89.3 and 76.6^° versus 50.2 and 57.1^°, respectively; p < 0.05). Hypoxic ΔV_I/ΔPACO₂ was significantly depressed compared to normoxic ΔV_I/ΔPACO₂ only at 21 days of age (50.2 versus 89.4^°, respectively; p < 0.05); hyperoxic CO₂ sensitivity and normoxic CO₂ sensitivity did not differ at either age. The ventilatory interaction between O₂-CO₂ in the neonatal primate appears to be the inverse of the typical adult ventilatory interaction. It is hypothesized that differential changes in brain stem blood flow between neonates and adults might explain this difference in O₂-CO₂ ventilatory interaction.