National Coverage of Out-of-hospital Cardiac Arrests Using Automated External Defibrillator-equipped Drones - A Geographical Information System Analysis

Overview

Journal Resuscitation

Specialty Emergency Medicine

Date 2021 Mar 6

PMID 33675868

Citations 13

Authors

S Schierbeck

A Nord

L Svensson

A Rawshani

J Hollenberg

M Ringh

S Forsberg

P Nordberg

F Hilding

A Claesson

Affiliations

Soon will be listed here.

Abstract

Background: Early defibrillation is essential for increasing the chance of survival in out-of-hospital-cardiac-arrest (OHCA). Automated external defibrillator (AED)-equipped drones have a substantial potential to shorten times to defibrillation in OHCA patients. However, optimal locations for drone deployment are unknown. Our aims were to find areas of high incidence of OHCA on a national level for placement of AED-drones, and to quantify the number of drones needed to reach 50, 80, 90 and 100% of the target population within eight minutes.

Methods: This is a retrospective observational study of OHCAs reported to the Swedish Registry for Cardiopulmonary Resuscitation between 2010-2018. Spatial analyses of optimal drone placement were performed using geographical information system (GIS)-analyses covering high-incidence areas (>100 OHCAs in 2010-2018) and response times.

Results: 39,246 OHCAs were included. To reach all OHCAs in high-incidence areas with AEDs delivered by drone or ambulance within eight minutes, 61 drone systems would be needed, resulting in overall OHCA coverage of 58.2%, and median timesaving of 05:01 (min:sec) [IQR 03:22-06:19]. To reach 50% of the historically reported OHCAs in <8 min, 21 drone systems would be needed; for 80%, 366; for 90%, 784, and for 100%, 2408.

Conclusions: At a national level, GIS-analyses can identify high incidence areas of OHCA and serve as tools to quantify the need of AED-equipped drones. Use of only a small number of drone systems can increase national coverage of OHCA substantially. Prospective real-life studies are needed to evaluate theoretically optimized suggestions for drone placement.

Citing Articles

Advancements in Public First Responder Programs for Out-of-Hospital Cardiac Arrest: An Updated Literature Review.

Kern M, Jansen G, Strickmann B, Kerner T Rev Cardiovasc Med. 2025; 26(1):26140.

PMID: 39867188 PMC: 11760550. DOI: 10.31083/RCM26140.

Drones delivering automated external defibrillators for out-of-hospital cardiac arrest: A scoping review.

Jakobsen L, Kjaerulf V, Bray J, Olasveengen T, Folke F Resusc Plus. 2025; 21():100841.

PMID: 39811468 PMC: 11730569. DOI: 10.1016/j.resplu.2024.100841.

Dispatcher nurses' experiences of handling drones equipped with automated external defibrillators in suspected out-of-hospital cardiac arrest - a qualitative study.

Hanna D, Erika B, Ellinor B, Sofia S, Leif S, Anette N Scand J Trauma Resusc Emerg Med. 2024; 32(1):74.

PMID: 39169425 PMC: 11337748. DOI: 10.1186/s13049-024-01246-6.

Combinations of First Responder and Drone Delivery to Achieve 5-Minute AED Deployment in OHCA.

Starks M, Chu J, Benjamin Leung K, Blewer A, Simmons D, Hansen C JACC Adv. 2024; 3(7):101033.

PMID: 39130039 PMC: 11313029. DOI: 10.1016/j.jacadv.2024.101033.

Incorporation of Drone Technology Into the Chain of Survival for OHCA: Estimation of Time Needed for Bystander Treatment of OHCA and CPR Performance.

Starks M, Blewer A, Chow C, Sharpe E, Van Vleet L, Arnold E Circ Cardiovasc Qual Outcomes. 2024; 17(4):e010061.

PMID: 38529632 PMC: 11127748. DOI: 10.1161/CIRCOUTCOMES.123.010061.