Hylke Salverda

65 3 Comparison of two devices for automated oxygen control in preterm infants episodes of hypoxemia. Pediatrics 2001;107(5):1120-4. 18. van Kaam AH, Hummler HD, Wilinska M, et al. Automated versus Manual Oxygen Control with Different Saturation Targets and Modes of Respiratory Support in Preterm Infants. J Pediatr 2015;167(3):545-50 e1-2. 19. Waitz M, Schmid MB, Fuchs H, et al. Effects of automated adjustment of the inspired oxygen on fluctuations of arterial and regional cerebral tissue oxygenation in preterm infants with frequent desaturations. J Pediatr 2015;166(2):240-4 e1. 20. Lal M, Tin W, Sinha S. Automated control of inspired oxygen in ventilated preterm infants: crossover physiological study. Acta Paediatr 2015;104(11):1084-9. 21. Gajdos M, Waitz M, Mendler MR, et al. Effects of a new device for automated closed loop control of inspired oxygen concentration on fluctuations of arterial and different regional organ tissue oxygen saturations in preterm infants. Arch Dis Child Fetal Neonatal Ed 2018 22. Reynolds PR, Miller TL, Volakis LI, et al. Randomised cross-over study of automated oxygen control for preterm infants receiving nasal high flow. Archives of disease in childhood Fetal and neonatal edition 2019;104(4):F366-F71. 23. Plottier GK, Wheeler KI, Ali SK, et al. Clinical evaluation of a novel adaptive algorithm for automated control of oxygen therapy in preterm infants on non-invasive respiratory support. Arch Dis Child Fetal Neonatal Ed 2017;102(1):F37-F43. 24. Van Zanten HA, Kuypers K, Stenson BJ, et al. The effect of implementing an automated oxygen control on oxygen saturation in preterm infants. Arch Dis Child Fetal Neonatal Ed 2017;102(5):F395-F99. 25. Dargaville PA, Sadeghi Fathabadi O, Plottier GK, et al. Development and preclinical testing of an adaptive algorithm for automated control of inspired oxygen in the preterm infant. Arch Dis Child Fetal Neonatal Ed 2017;102(1):F31-F36. 26. Claure NR, Bancalari EH. System and method for closed loop controlled inspired oxygen concentration: Google Patents; 2003 [ 27. Lehmann. Nonparametrics: Statistical methods based on ranks. New York: Springer 2006. 28. Sturrock S, Ambulkar H, Williams EE, et al. A randomised crossover trial of closed loop automated oxygen control in preterm, ventilated infants.n/a(n/a) 29. Pocock SJ, Hughes MD. Practical problems in interim analyses, with particular regard to estimation. Control Clin Trials 1989;10(4 Suppl):209S-21S. 30. Briel M, LaneM, Montori VM, et al. Stopping randomized trials early for benefit: a protocol of the Study Of Trial Policy Of Interim Truncation-2 (STOPIT-2). Trials 2009;10:49. 31. POCOCK SJ. Group sequential methods in the design and analysis of clinical trials. Biometrika 1977;64(2):191-99. 32. O’Brien PC, Fleming TR. A multiple testing procedure for clinical trials. Biometrics 1979;35(3):549-56. 33. Schwarz CE, Lightbody G, Müller-Hansen I, et al. In vitro evaluation of delays in the adjustment of the fraction of inspired oxygen during CPAP: effect of flow and volume. 2020:fetalneonatal-2020-319058. 34. Poets CF, Roberts RS, Schmidt B, et al. Association Between Intermittent Hypoxemia or Bradycardia and Late Death or Disability in Extremely Preterm Infants. Jama 2015;314(6):595-603.

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