Automated external defibrillators delivered by drones to patients with suspected out-of-hospital cardiac arrest
Sofia Schierbeck, Jacob Hollenberg, Anette Nord, Leif Svensson, Per Nordberg, Mikael V. Ringh, Sune Forsberg, Pia Lundgren, Christer Axelsson, Andreas Claesson
Abstract
Abstract Background Early defibrillation is critical for the chance of survival in in out-of-hospital cardiac arrest (OHCA). Drones, used to deliver automated external defibrillators (AEDs), may shorten time to defibrillation, but this has never been evaluated in real-life emergencies. Purpose The aim of this study was to investigate the feasibility of AED-delivery by drones in real-life cases of OHCA. Methods In this prospective clinical trial, three AED-equipped drones were placed within controlled airspace in Sweden, covering approximately 80,000 inhabitants (125km2). Drones were integrated in the emergency medical services for automated deployment in beyond-visual-line-of-sight flights in; a) consecutive real-life suspected OHCAs b) test-flights from 06–01–20 to 09–30–20. Primary outcome was the proportion of successful AED-deliveries when drones were dispatched in cases of suspected OHCA. Among secondary outcomes were the proportion of cases where AED-drones arrived prior to ambulance and time benefit vs. ambulance. Results Totally 14 cases were eligible for dispatch during the study period in which AED-drones took off in 12 alerts to suspected OHCA; with a median distance to location 3,1 km (IQR:2,8–3,4). AED-delivery was feasible within 9 meters (IQR:7,5–10,5) from the location and successful in 11 alerts, 92%. AED-drones arrived prior to ambulances in 64%, with a median time benefit of 01:52 minutes (IQR:01:35–04:54). In an additional 61 test-flights the AED-delivery success rate was 90% (55/61). Conclusion In this pilot study, we have shown that AED-delivery by drones in real-life cases of OHCA is feasible with a substantial time benefit and a successful delivery rate of 92%. Further technological improvements are needed to increase dispatch rate and time gains. Funding Acknowledgement Type of funding sources: Foundation. Main funding source(s): Swedish heart-lung foundation