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Automated external defibrillators and basic life support practices in secondary schools: a nationwide study

Published online by Cambridge University Press:  14 November 2022

Mark Abela Open the ORCID record for Mark Abela [Opens in a new window] ,
Victor Grech  and
Mark A. Sammut
Mark Abela*
Affiliation:
Department of Cardiology, Mater Dei Hospital, Malta Cardiology, University of Malta, Malta
Victor Grech
Affiliation:
Depatment of Paediatrics, Mater Dei Hospital, Malta
Mark A. Sammut
Affiliation:
Department of Cardiology, Mater Dei Hospital, Malta
*
Author for correspondence: Dr Mark Abela, Cardiac Rehabilitation Unit, Mater Dei Hospital, MSD2090, Malta. Tel: +35625454236. E-mail: markabela88@gmail.com
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Abstract

Aim:

Cardiac arrest prevention in schools has recently gained momentum. The survival benefit in schools who have access to defibrillators is clear, with far better survival outcomes in children or adults who sustain a cardiac arrest on school grounds. The main objectives of this study were to assess sudden cardiac arrest prevention in Maltese schools, specifically the availability of defibrillators and staff competence in delivering resuscitation.

Methodology and results:

An online-based questionnaire was distributed to all secondary schools across the Maltese archipelago. Data were collected, tabulated, and analysed using SPSS V.23. Most schools (n = 40, 74.1%) completed the questionnaire. Two schools documented a cardiac arrest in the past 10 years. 87.5% agreed that cardiac arrest prevention is an important health topic. Most have a defibrillator on the premises (n = 37, 92.5%). Only one defibrillator is usually available (n = 27, 75.0%). Despite the majority claiming its ease of accessibility (n = 35, 97.2%), most were not available on every floor (n = 37, 97.2%). Only one-third were close to a sporting facility (n = 11, 30.6%). Schools do not organise regular resuscitation courses (n = 21, 58.3%), with eight schools having five or more certified staff members (23.5%). The number of defibrillators did not influence the frequency of resuscitation courses at school (p = 0.607), and there was no association with the number of certified individuals (p = 0.860).

Conclusion:

Defibrillators are not readily available at secondary schools and are often installed in low-risk areas. Most schools have only one staff member certified in resuscitation. These factors should be addressed with urgency.

Keywords

Cardiac Arrestadolescentspreventiondefibrillationschoolsresuscitation
Type
Brief Report
Information
Cardiology in the Young , Volume 33 , Issue 6 , June 2023 , pp. 1036 - 1039
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Copyright
© The Author(s), 2022. Published by Cambridge University Press

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References

Srinivasan, NT, Schilling, RJ. Sudden cardiac death and arrhythmias. Arrhythm Electrophysiol Rev 2018; 7: 1111117.CrossRefGoogle ScholarPubMed
Drezner, JA, Rao, AL, Heistand, J, Bloomingdale, MK, Harmon, KG. Effectiveness of emergency response planning for sudden cardiac arrest in United states high schools with automated external defibrillators. Circulation 2009; 120: 518525.CrossRefGoogle ScholarPubMed
Drezner, JA, Rogers, KJ, Zimmer, RR, Sennett, BJ. Use of automated external defibrillators at NCAA division I universities. Med Sci Sports Exerc 2005; 37: 14871492.CrossRefGoogle ScholarPubMed
Baekgaard, JS, Viereck, S, Møller, TP, Ersbøll, AK, Lippert, F, Folke, F. The effects of public access defibrillation on survival after Out-of-Hospital cardiac arrest: a systematic review of observational studies. Circulation 2017; 136: 954965.CrossRefGoogle ScholarPubMed
Public Access Defibrillation Trial Investigators. Public-access defibrillation and survival after out-of-hospital cardiac arrest. New England Journal of Medicine 2004; 351: 637646.CrossRefGoogle Scholar
Saarel, EV, Law, I, Berul, CI, et al. Safety of sports for young patients with implantable Cardioverter-Defibrillators. Circ Arrhythm Electrophysiol 2018; 11: e006305.CrossRefGoogle ScholarPubMed
Swor, R, Grace, H, Mcgovern, H, Weiner, M, Walton, E. Cardiac arrests in schools: assessing use of automated external defibrillators (AED) on school campuses. Resuscitation 2013; 84: 426429.CrossRefGoogle ScholarPubMed
The American Heart Association in Collaboration with the International Liaison Committee o. Guidelines 2000 for cadiopulmonary resuscitation and emergency cardiovascular care, part 4: the automated external defibrillator: key link in the chain of survival. Circulation 2000; 102: I60176.Google Scholar
Ljungqvist, A, Jenoure, P, Engebresten, L, et al. The international olympic committee (IOC) consensus statement on periodic health evaluation of elite athletes, March 2009. Clin J Sport Med 2009; 43: 631643.Google ScholarPubMed
Larsen, MP, Eisenberg, MS, Cummins, RO, Hallstrom, AP. Predicting survival from out-of-hospital cardiac arrest: a graphic model. Ann Emerg Med 1993; 22: 16521658.CrossRefGoogle ScholarPubMed
Borjesson, M, Serratosa, L, Carre, F, et al. Consensus document regarding cardiovascular safety at sports arenas. Eur Heart J 2011; 32: 21192124.CrossRefGoogle ScholarPubMed
Malhotra, A, Dhutia, H, Gati, S, et al. Emergency response facilities including primary and secondary prevention strategies across 79 professional football clubs in England. Br J Sports Med 2019; 53(13): 813–817.CrossRefGoogle ScholarPubMed
Papadakis, M, Sharma, S, Cox, S, Sheppard, MN, Panoulas, VF, Behr, ER. The magnitude of sudden cardiac death in the young: a death certificate-based review in England and Wales. Europace 2009; 11: 13531358.CrossRefGoogle Scholar
Winkel, BG, Holst, AG, Theilade, J, et al. Nationwide study of sudden cardiac death in persons aged 1-35 years. Eur Heart J 2011; 32: 983990.CrossRefGoogle ScholarPubMed
Winkel, BG. Sudden cardiac death in young danes. Dan Med J 2012; 59: 115.Google ScholarPubMed
Winkel, BG, Risgaard, B, Sadjadieh, G, Bundgaard, H, Haunsø, S, Tfelt-hansen, J. Sudden cardiac death in children (1 – 18 years): symptoms and causes of death in a nationwide setting. Eur Heart J 2014; 35: 868875.CrossRefGoogle Scholar
Finocchiaro, G, Papadakis, M, Robertus, JL, et al. Etiology of sudden death in sports: insights from a United Kingdom regional registry. J Am Coll Cardiol 2016; 67: 21082115.CrossRefGoogle ScholarPubMed
Malhotra, A, Dhutia, H, Finocchiaro, G, et al. Outcomes of cardiac screening in adolescent soccer players. New Engl J Med 2018; 379: 524534.CrossRefGoogle ScholarPubMed
Drezner, JA, Toresdahl, BG, Rao, AL, Huszti, E, Harmon, KG. Outcomes from sudden cardiac arrest in US high schools: a 2-year prospective study from the national registry for AED use in sports. Br J Sports Med 2013; 47: 11791183.CrossRefGoogle Scholar
Drezner, JA, Rao, AL, Heistand, J, Bloomingdale, MK, Harmon, KG. Effectiveness of emergency response planning for sudden cardiac arrest in United states high schools with automated external defibrillators 2009.CrossRefGoogle Scholar
Coris, EE, Miller, E, Sahebzamani, F. Sudden cardiac death in division I collegiate athletes: analysis of automated external defibrillator utilization in national collegiate athletic association division I athletic programs. Clin J Sport Med 2005; 15: 8791.CrossRefGoogle Scholar
Sherrid, MV, Aagaard, P, Serrato, S, et al. State requirements for automated external defibrillators in american schools: framing the debate about legislative action. JACC 2017; 69: 17351743.CrossRefGoogle ScholarPubMed
Automated external defibrillators (AEDs). 2019;(October).Google Scholar
Salciccioli, JD, Marshall, DC, Sykes, M, et al. Basic life support education in secondary schools: a cross-sectional survey in London, UK. 2017, 1–5.CrossRefGoogle Scholar
Scapigliati, A, Semeraro, F, di Marco, S, et al. The new italian law, a systems saving lives, the first european former application of ERC, 2021 guidelines. Resuscitation 2021; 167: 4748.CrossRefGoogle Scholar
Abela, M, Xuereb, S, Camilleri, W, et al. BEAT-IT: a de novo screening programme for causes of sudden cardiac death in maltese adolescents. Eur J Prev Cardiol 2019; 26: S26P235.Google Scholar
NSO. Regional statistics: Malta 2019.Google Scholar
Hwang, S, Do, Shin S, Lee, K, et al. Cardiac arrest in schools: nationwide incidence, risk, and outcome. Resuscitation 2017; 110: 8184.CrossRefGoogle ScholarPubMed
Resuscitation Council (UK) Internet. 2022cited 2022 Jan 9, Available from: https://www.resus.org.uk/.Google Scholar
Marijon, E, Tafflet, M, Celermajer, DS, et al. Sports-related sudden death in the general population. Circulation 2011; 124: 672681.CrossRefGoogle ScholarPubMed
Becker, L, Eisenberg, M, Fahrenbruch, C, Cobb, L. Public locations of cardiac arrest - implications for public access defibrillation. Circulation 1998; 97: 21062109.CrossRefGoogle ScholarPubMed
Süss-havemann, C, Kosan, J, Seibold, T, et al. Implementation of basic life support training in schools : a randomised controlled trial evaluating self-regulated learning as alternative training concept. BMC Public Health 2020; 20: 19.CrossRefGoogle Scholar
Government of Malta. Sports act (Chapter 455) 2021.Google Scholar