BACKGROUND: In-water resuscitation (IWR) is recommended in the 2010 guidelines of the European Resuscitation Council. As IWR represents a physical challenge to the rescuer, a novel Rescue Tube device with an integrated “Oxylator” resuscitator might facilitate IWR. The aim of the present study was the assessment of IWR using the novel Rescue Tube device.METHODS: Tidal and minute volumes were recorded using a modified Laerdal Resusci Anne mannequin. Furthermore, rescue time, water aspiration, submersions, and physical exertion were assessed. In this randomized cross-over trial, 17 lifeguards performed four rescue maneuvers over a 100-m distance in open water in random order: no ventilation (NV), mouth-to-mouth ventilation (MMV), Oxylator-aided mask ventilation (OMV), and Oxylator-aided laryngeal tube ventilation (OLTV).RESULTS: OLTV resulted in effective ventilation over the entire rescue distance with the highest mean minute volumes (NV 0, MMV 2.9, OMV 4.1, OLTV 7.6 L · min⁻¹). NV was the fastest rescue maneuver while IWR prolonged the rescue maneuver independently of the method of ventilation (mean total rescue time: NV 217, MMV 280, OMV 292, OLTV 290 s). Aspiration of substantial amounts of water occurred only during MMV (mean NV 20, MMV 215, OMV 15, OLTV 6 ml). NV and OLTV were rated as moderately challenging by the lifeguards, whereas MMV and OMV were rated as substantially demanding on a 0-10 visual analog scale (NV 5.3, MMV 7.8, OMV 7.6, OLTV 5.9).DISCUSSION: The device might facilitate IWR by providing effective ventilation with minimal aspiration and by reducing physical effort. Another advantage is the possibility of delivering 100% oxygen.Lungwitz YP, Nussbaum BL, Paulat K, Muth C-M, Kranke P, Winkler BE. A novel rescue-tube device for in-water resuscitation. Aerosp Med Hum Perform. 2015; 86(4):379–385.