Respiratory adaptation to chronic hypercapnia in newborn rats

Abstract

We asked 1) whether newborn rats respond to chronic hypercapnia with a persistent increase in ventilation and 2) whether changes in lung mass were accompanying the respiratory adaptation to chronic hypercapnia, as previously observed during neonatal chronic hypoxia. Five litters of rats were kept in 7% CO2 (with 21% O2) from day 1 to 7 after birth (CO2exp) and compared with six litters of control rats growing in normocapnia-normoxia (C). Body weight was similar between the two groups. Ventilation, measured by flow plethysmography, increased in CO2exp from day 2 and remained steadily elevated, and at day 7 it almost doubled (174%) the C value because of the large increase in tidal volume and mean inspiratory flow (192 and 189%, respectively) with no changes in respiratory frequency. Two days after return to normocapnia, ventilation was still 33% higher than in C; at this time, acute exposure to hypercapnia increased ventilation relatively less in the CO2exp than in C because of a lower increase in tidal volume. Neither the lung weight-to-body weight nor the heart weight-to-body weight ratios increased in CO2exp. We conclude that 1) chronic hypercapnia in newborn rats induces a steady increase in ventilation, which persists at least 2 days after return to normocapnia with a reduction in the acute response to CO2, and 2) hyperventilation per se is not the cause of the increased lung mass observed during chronic neonatal hypoxia.