RT Journal Article SR Electronic T1 Visual attention on a respiratory function monitor during simulated neonatal resuscitation: an eye-tracking study JF Archives of Disease in Childhood - Fetal and Neonatal Edition JO Arch Dis Child Fetal Neonatal Ed FD BMJ Publishing Group Ltd and Royal College of Paediatrics and Child Health SP F259 OP F264 DO 10.1136/archdischild-2017-314449 VO 104 IS 3 A1 Trixie A Katz A1 Danielle D Weinberg A1 Claire E Fishman A1 Vinay Nadkarni A1 Patrice Tremoulet A1 Arjan B te Pas A1 Aleksandra Sarcevic A1 Elizabeth E Foglia YR 2019 UL http://fn.bmj.com/content/104/3/F259.abstract AB Objective A respiratory function monitor (RFM) may improve positive pressure ventilation (PPV) technique, but many providers do not use RFM data appropriately during delivery room resuscitation. We sought to use eye-tracking technology to identify RFM parameters that neonatal providers view most commonly during simulated PPV.Design Mixed methods study. Neonatal providers performed RFM-guided PPV on a neonatal manikin while wearing eye-tracking glasses to quantify visual attention on displayed RFM parameters (ie, exhaled tidal volume, flow, leak). Participants subsequently provided qualitative feedback on the eye-tracking glasses.Setting Level 3 academic neonatal intensive care unit.Participants Twenty neonatal resuscitation providers.Main outcome measures Visual attention: overall gaze sample percentage; total gaze duration, visit count and average visit duration for each displayed RFM parameter. Qualitative feedback: willingness to wear eye-tracking glasses during clinical resuscitation.Results Twenty providers participated in this study. The mean gaze sample captured wa s 93% (SD 4%). Exhaled tidal volume waveform was the RFM parameter with the highest total gaze duration (median 23%, IQR 13–51%), highest visit count (median 5.17 per 10 s, IQR 2.82–6.16) and longest visit duration (median 0.48 s, IQR 0.38–0.81 s). All participants were willing to wear the glasses during clinical resuscitation.Conclusion Wearable eye-tracking technology is feasible to identify gaze fixation on the RFM display and is well accepted by providers. Neonatal providers look at exhaled tidal volume more than any other RFM parameter. Future applications of eye-tracking technology include use during clinical resuscitation.