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Preliminary study of automated oxygen titration at birth for preterm infants

Citation

Ali, SKM and Jayakar, RV and Marshall, AP and Gale, TJ and Dargaville, PA, Preliminary study of automated oxygen titration at birth for preterm infants, Archives of Disease in Childhood. Fetal and Neonatal Edition pp. 1-6. ISSN 1359-2998 (2022) [Refereed Article]

Copyright Statement

© Author(s) (or their employer(s)) 2022.

DOI: doi:10.1136/archdischild-2021-323486

Abstract

Objective To study the feasibility of automated titration of oxygen therapy in the delivery room for preterm infants.

Design Prospective non-randomised study of oxygenation in sequential preterm cohorts in which FiO2 was adjusted manually or by an automated control algorithm during the first 10 min of life.

Setting Delivery rooms of a tertiary level hospital.

Participants Preterm infants <32 weeks gestation (n=20 per group).

Intervention Automated oxygen control using a purpose-built device, with SpO2 readings input to a proportional-integral-derivative algorithm, and FiO2 alterations actuated by a motorised blender. The algorithm was developed via in silico simulation using abstracted oxygenation data from the manual control group. For both groups, the SpO2 target was the 25th–75th centile of the Dawson nomogram.

Main outcome measures Proportion of time in the SpO2 target range (25th–75th centile, or above if in room air) and other SpO2 ranges; FiO2 adjustment frequency; oxygen exposure.

Results Time in the SpO2 target range was similar between groups (manual control: median 60% (IQR 48%–72%); automated control: 70 (60–84)%; p=0.31), whereas time with SpO2 >75th centile when receiving oxygen differed (manual: 17 (7.6–26)%; automated: 10 (4.4–13)%; p=0.048). Algorithm-directed FiO2 adjustments were frequent during automated control, but no manual adjustments were required in any infant once valid SpO2 values were available. Oxygen exposure was greater during automated control, but final FiO2 was equivalent.

Conclusion Automated oxygen titration using a purpose-built algorithm is feasible for delivery room management of preterm infants, and warrants further evaluation.

Item Details

Item Type:Refereed Article
Keywords:automated, oxygen, delivery room, preterm infants
Research Division:Engineering
Research Group:Biomedical engineering
Research Field:Medical devices
Objective Division:Health
Objective Group:Clinical health
Objective Field:Treatment of human diseases and conditions
UTAS Author:Jayakar, RV (Mr Rohan Jayakar)
UTAS Author:Marshall, AP (Mr Andrew Marshall)
UTAS Author:Gale, TJ (Dr Timothy Gale)
UTAS Author:Dargaville, PA (Professor Peter Dargaville)
ID Code:149234
Year Published:2022
Deposited By:Engineering
Deposited On:2022-03-18
Last Modified:2022-04-14
Downloads:0

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