In mechanical ventilation of preterm infants, positive endexpiratory pressure (PEEP) is widely used to prevent alveolar collapse, maintain functional residual capacity (FRC) and improve oxygenation. Prolongation of inspiratory time (t_i) and increase of peak inspiratory pressure (PIP) are also used for this purpose. We investigated the effect of variations of PEEP, PIP and t_i on FRC in ten infants with hyaline membrane disease and onset of bronchopulmonary dysplasia (BPD, n= 7), pulmonary hypertension (n= 1), pulmonary hypoplasia (n= 1) or severe BPD (n= 1) (gestational age 24-39 weeks, median 26 weeks; birth weight 590-2960 g, 785 g; chronological age 7-84 days, 19 days; weight 689-4650 g, 1185 g). FRC, measured using the sulphur hexafluoride washout technique, was between 6.2 and 48.3 ml/kg (median 21.5 ml/kg). PEEP was changed stepwise 2-5 times in each patient (median 3) and mean airway pressure (MAP) was modified independently of PEEP by changing PIP 0-2 times (median 1) and t_i 0-2 times (median 2). Changes of FRC correlated well with modifications of PEEP in each patient (r= 0.90, range 0.71-0.99). The slope factors of linear correlations had a median value of 2.94 ml/cm H₂O per kg, which was significantly different from zero (P < 0.01) and significantly higher than the slope factors of linear correlations between FRC and MAP after modifications of PIP or t_i (P < 0.01). The latter two were statistically not different from zero. The quotients ΔFRC/ΔMAP were significantly higher after adjustments of PEEP than after adjustments of PIP or t_i (P < 0.01). The time lag between the change of PEEP and the stabilization of FRC on a new level ranged from 2 to 14 min (median 5).

Conclusion FRC is mainly determined by PEEP but not by PIP or t_i. Stabilization of FRC after a change of PEEP can last up to 14 min. Its duration is unpredictable and has to be waited for when testing pulmonary function in ventilated preterm infants. [PUBLICATION ABSTRACT]