Abstract

We aimed to measure lung mechanics at birth by the forced oscillation technique (FOT) for assessment of the initial degree of lung aeration and the short-term aeration changes after applying different respiratory support strategies. Eighteen preterm infants (gestational age = 29-36 week) were randomized to receive either continuous positive airway pressure (CPAP) at 5 cmH2 O only or combined with a sustained inflation (SI; 15 seconds at 25 cmH2 O after 5 seconds of CPAP) at birth. We assessed the respiratory system reactance at 5 Hz (X5; increases with lung volume recruitment at a given distending pressure) at 2, 40, and 150 seconds after initiation of CPAP. k-Means clustering of the initial X5 value (X5,i ) stratified newborn into either infants with lower (lowerX5,i ; X5 < -280 cmH2 O*s/L) and higher (higherX5,i ; X5 > -240 cmH2 O*s/L) initial degree of lung volume recruitment. Initial values were highly heterogeneous. In the LowerX5,i group, X5 increased with time, with SI-patients showing significantly higher values at 150 seconds than the non-SI group (X5 = -89 ± 27 cmH2 O vs -274 ± 58 cmH2 O). In the higherX5,i group, X5 did not improve with time, regardless of the respiratory strategy, suggesting a lack of lung recruitment. Moreover, 75% of infants receiving SI in the higherX5,i group experienced a transient loss of aeration after the maneuver. Preterm newborns present initially with highly heterogeneous lung aeration at birth that significantly impacts the effectiveness of the subsequent lung volume recruitment strategy. FOT may represent a valuable tool for individualizing a respiratory resuscitation at birth as it is noninvasive and may be applied simultaneously to respiratory support.

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