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Commercial aircrafts cruise between 9150 and 13000 m above sea level, with a cabin pressure equivalent to 1530–2440 m at which passengers breathe the equivalent of 15–17% of fractional inspired oxygen (FiO2) at sea level.
British Thoracic Society recommendations for passengers with chronic respiratory disorders planning air travel1 suggest that infants and young children unable to perform spirometry, with a history of neonatal respiratory disease consult a paediatrician and a hypoxia test be considered. The recommended hypoxia test method in young children is to place the child in a body plethysmograph while seated on the parent’s lap and introduce nitrogen until FiO2 equals 15%. This method relies on equipment not readily available outside the tertiary hospital setting. We have reported a review of hypoxia testing in infants and young children with a history of neonatal lung disease.2
In our study, the hypoxia test was performed by exposing the children to high flow (15 l/min) 14% oxygen in nitrogen (Air Liquide, Perth, Western Australia, Australia), via a mask, for 20 min. Here we report the validation of this hypoxia test method in a group of infants and young children.
Seven children aged 2–51 months (3 boys) underwent a hypoxia test as described earlier. In addition, a gas sampling line was fixed under the nares of the child, permitting real-time recording of respired gas concentrations (Sensormedics Spectra V.12.3; Viasys, Yorba Linda, California, USA). A two-point calibration procedure encompassing the respirable range was performed before testing and accepted at an accuracy of 0.05%. Once the hypoxia test commenced, two separate periods of 30 s of quiet breathing were recorded and results and saved for retrospective analysis. The median FiO2 for each inspiration was obtained and median FiO2 for all breaths calculated for each child. Table 1 shows the anthropometric and FiO2 data. The study was approved by the Princess Margaret Hospital ethics committee and parental written was consent obtained.
Group median FiO2 is comparable to the 15–17% encountered at cruising altitudes. Several factors may have influenced our median FiO2 values. The mask applied to the infant does not provide a tight-fitting seal, and room air entrainment, proportional to inspiratory flow, may result in increased FiO2. We attempted to account for this influence by using a challenge gas of 14% O2, a gas concentration lower than recommended, and a high delivery flow of 15 l/min. Two infants had low median FiO2, with values of about 13%. After the investigation of these children, it was noted the median FiO2 was 13.5% (standard deviation 0.2%), giving a potential lower limit of 13.3%. Follow-up with the gas supplier showed that the normal titration procedure used during cylinder filling has an error of 0.5%, with the final concentration confirmed with an error of 0.2%. Despite these variations in FiO2, the median FiO2 of 15.1% equates well to the upper limit of cruising altitude. Although the confirmation that hypoxia challenge tests mimic the hypobaric conditions experienced during flight has been reported in adults,3 a study on adolescent children with cystic fibrosis found that the hypoxia test only poorly predicted subsequent in-flight oxygen requirements.4 Hypoxia tests on infants and young children have yet to be validated as reliably reproducing the hypobaric conditions experienced during air travel, and further work in this discipline is urgently required.
In summary, we present a simple, easily-applied hypoxia test method for use in infants and young children, which produces a median FiO2 similar to that encountered during flight.
We thank Jan Oostryck and Vaska Stavreska for their assistance in establishing the hypoxia test method.
Funding: This project was funded by a seeding grant from the Princess Margaret Hospital Foundation. Mayohealthcare Australia kindly provided the Sensormedics Spectra equipment used in the study.
Competing interests: None.
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