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.