Chapter 2
18. Kitchen MJ, et al. Changes in positive end-expiratory pressure alter the distribution of ventilation within the lung immediately after birth in newborn rabbits. PLoS ONE (2014) 9: e93391.
19. Crawshaw JR, et al. Laryngeal closure impedes non-invasive ventilation at birth. Arch Dis Child Fetal Neonatal Ed. (2017) 103:F112-9.
20. Dawson JA, et al. Defining the reference range for oxygen saturation for infants after birth. Pediatrics (2010) 125:e1340-7.
21. van Vonderen JJ, et al. The administration of 100% oxygen and respiratory drive in very preterm infants at birth. PLoS ONE (2013) 8:e76898.
22. Dawson JA, et al. Oxygen saturation and heart rate during delivery room resuscitation of infants <30 weeks’ gestation with air or 100% oxygen. Arch Dis Child Fetal Neonatal Ed. (2009) 94:F87-91.
23. Oei JL, et al. Outcomes of oxygen saturation targeting during delivery room stabilisation of preterm infants. Arch Dis Child Fetal Neonatal Ed. (2017) 103:F446-54.
24.Vento M, et al. Antenatal steroids and antioxidant enzyme activity in preterm infants:influence of gender and timing. Antioxid Redox Signal. (2009) 11:2945-55.
25. Vento M, et al. Room-air resuscitation causes less damage to heart and kidney than 100% oxygen. Am J Resp Crit Care Med. (2005) 172:1393-8. doi: 10.1164/rccm.200412- 1740OC
26. Saugstad OD. Oxidative stress in the newborn-a 30-year perspective. Biol Neonate (2005)
88:228-36.
27. Oei JL, et al. Targeted oxygen in the resuscitation of preterm infants, a randomized clinical
trial. Pediatrics (2017) 139: e20161452.
28. Oei JL, et al. Higher or lower oxygen for delivery room resuscitation of preterm infants
below 28 completed weeks gestation: a meta-analysis. Arch Dis Child Fetal Neonatal Ed.
(2017) 102:F24-30.
29. Brown JV, et al. Lower versus higher oxygen concentration for delivery room stabilisation
of preterm neonates: systematic review. PloS ONE (2012) 7:e 52033.
30. Saugstad OD, et al. Systematic review and meta-analysis of optimal initial fraction of
oxygen levels in the delivery room at </=32 weeks. Acta Paediatrica (2014) 103:744-51.
31. Mehler K, et al. A. Outcome of extremely low gestational age newborns after introduction of a revised protocol to assist preterm infants in their transition to extrauterine life. Acta
Paediatrica (2012) 101:1232-9.
32. Dekker J, et al. Caffeine to improve breathing effort of preterm infants at birth: a
randomized controlled trial. Pediatric Res. (2017) 82:290-6.
33. Hooper SB, et al. The physiology of neonatal resuscitation. Curr Opin Pediatrics (2018)
30:187-91.
34. Harding R, Hooper SB. Regulation of lung expansion and lung growth before birth. J Appl
Physiol. (1996) 81:209-24.
35. te Pas AB, et al. Establishing functional residual capacity at birth: the effect of sustained
inflation and positive end-expiratory pressure in a preterm rabbit model. Pediatric Res. (2009) 65:537-41.
60