FiO2 Delivered With Neonatal bCPAP

This is a cross-sectional observational study. The patient population will be a convenience sample with patients recruited when investigators are available, and the measurement is possible without interrupting planned care. There is no intervention apart from measurements of FiO2 in the breathing circuit and parents will be given the opportunity to decline participation. The study aims to include FiO2 measurements from bCPAP machines in use where the infants have stable spontaneous breathing and not expected to need urgent interventions. The main outcomes of the study are FiO2 displayed by the analyzer (chemical sensor), FiO2 recorded compared to FiO2 assessed from the rotameter flow using the conversion table. The clinicians estimating the rotameter flows are blinded to the delivered FiO2.

There are 22 bubble CPAP machines in the NICU. We aim to collect four or five measurements on each machine at a range of FiO2-levels generating a total of approximately 100 measurements. Differences in FiO2 of 0.04 would be considered clinically relevant, since it might have implication for decision of surfactant treatment or intubation. FiO2 accuracy will be investigated by comparing paired samples from visual assessed FiO2 and measured FiO2 (electrochemical sensor) by appropriate statistical tests. Variation between and within the two types of CPAP machines will be described. Analysis will also describe accuracy at different FiO2 levels and variance of accuracy between clinicians' bedside estimates.

The main application for ethical approval of the study will be to the Ethical Review Board at Phu San Hanoi Hospital. Analysis and data will be handled by researchers affiliated with Karolinska Institutet, and a second application will be filed at the Swedish Ethical Review Authority.

The risk for an infant participating in the study is minimal. Only infants with stable breathing will be included and measuring an infant is short with two brief interruptions in CPAP treatment. Pauses and interruptions of CPAP is common during normal care, for example when the nasal interfaces are repositioned, nares cleaned or tubes replaced. The infant is not moved and there is no handling of the infant or tests performed. Routine monitoring will be in place. The study takes place in the neonatal intensive care ward where there is immediate access to equipment and staff experienced with life support if an infant is sick. In that case the measurement can be immediately stopped without problems for the infant or the study.

For an infant there are no advantages or disadvantages with participating in the study. If the measured FiO2 deviates and this will affect management, the staff will be notified. This could for example be decisions regarding surfactant or mechanical ventilation. This is a potential advantage for the individual patients.