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Dtsch Med Wochenschr 2008; 133(42): 2163-2167
DOI: 10.1055/s-0028-1091257
Übersicht | Review article
Kardiologie
© Georg Thieme Verlag KG Stuttgart · New York

Automatische externe Defibrillatoren – Funktionsweise und Einsatz

Automatic external defibrillator – mode of operation and clinical useH. Wieneke1 , T. Konorza1 , F. Breuckmann1 , N. Reinsch1 , R. Erbel1
  • 1Westdeutsches Herzzentrum, Universitätsklinikum Essen
Further Information

Publication History

eingereicht: 14.4.2008

akzeptiert: 23.7.2008

Publication Date:
07 October 2008 (online)

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Zusammenfassung

In Deutschland versterben jährlich über 100 000 Personen am plötzlichen Herztod.

Trotz verschiedener Maßnahmen bleibt jedoch die Prognose des plötzlichen Herztodes schlecht. So beträgt der Anteil an Patienten zwischen 2 und 10 %, die einen plötzlichen Herztod überleben, also aus dem Krankenhaus wieder entlassen werden. Eine Untersuchung an Patienten, bei denen zum Zeitpunkt des einsetzenden plötzlichen Herztodes eine EKG-Dokumentation verfügbar war, zeigt zu 89 % Kammerflimmern oder eine ventrikuläre Tachykardie, also Herzrhythmusstörungen, die mit einem Defibrillator terminiert werden können. Für das Überleben eines Patienten mit diesen Herzrhythmusstörungen ist die Zeit bis zur Defibrillation von herausragender Bedeutung.

Vielfältige Untersuchung haben gezeigt, dass professionelles, nicht-medizinisches Personal (Polizeibeamten, Feuerwehrleute u. a.) aber auch zufällig anwesende Personen in den meisten Fällen den Patienten vor dem Rettungsdienst erreichen. Diese Beobachtung hat zu der Überlegung geführt, Defibrillatoren zu entwickeln, die tachykarde Herzrhythmusstörungen zuverlässig selbstständig erkennen und therapieren können. Diese werden automatische externe Defibrillatoren (AED) bezeichnet. Mit ihrem Einsatz ist es möglich, dass nicht-ärztliches Personal Kammerflimmern behandeln kann und dadurch die Zeit vom Beginn der Herzrhythmusstörung bis zur Terminierung signifikant gesenkt wird. In zahlreichen Studien hat sich gezeigt, dass sowohl First Responder aber auch ungeschulte Laien den AED sicher eingesetzt haben und dadurch eine Senkung der Sterblichkeit am plötzlichen Herztod erreicht werden konnte.

Summary

Every year about 100.000 persons die from sudden cardiac death (SCD) in Germany. Although many efforts have been undertaken, mortality remains high. Only 2 – 10 % of patients with out-off hospital SCD can finally be discharged from hospital after resuscitation. Observational studies show that ventricular fibrillation and ventricular tachycardia are the primary arrhythmias underlying SCD. For both arrhythmias the main determinant for survival is the time between onset and termination by defibrillation. The chance of survival declines by 10 % for every minute of delay. These findings prompted the concept of early defibrillation by first responders.

Many studies have shown that non-medical professionals, like police men, firemen or security officers, often arrive at the patient more early than emergency medical service. Thus, „smart” automated external defibrillators (AEDs), designed to identify VT/VF and prompt the user when to deliver a shock were introduced. These devices allow lay rescuers to terminate ventricular arrhythmias before the arrival of medical professionals. By this approach the time to defibrillation could be reduced and a significant reduction in mortality could be documented in selected situation.

These encouraging results initialled the installation of AED at public places like aircrafts, airports, underground stations and shopping males. Due to the success of this approach doctors are more and more confronted with questions about technical details, reliability and cost effectiveness of these devices. The present review should give an overview about the current studies and guidelines.

Schlüsselwörter

Reanimation - automatischer externer Defibrillator - AED - plötzlicher Herztod

Key words

resusciation - automatic external defibrillator - AED - sudden cardiac death

Literatur

  • 1 van Alem A P, Vrenken R H, de Vos R, Tijssen J G, Koster R W. Use of automated external defibrillator by first responders in out of hospital cardiac arrest: prospective controlled trial.  BMJ. 2003;  327 1312
    Google Scholar
  • 2 American Heart Association, International Liasion Committee on Resuscitation, ILCOR . Guidelines 2000 for cardiopulmonary resuscitation and emergency cardiovascular care – An international consensus on science.  Circulation. 2000;  102 (Suppl.) 1-384
    Google Scholar
  • 3 Aufderheide T, Hazinski M F, Nichol G. et al . Community lay rescuer automated external defibrillation programs: key state legislative components and implementation strategies: a summary of a decade of experience for healthcare providers, policymakers, legislators, employers, and community leaders from the American Heart Association Emergency Cardiovascular Care Committee, Council on Clinical Cardiology and Office of State Advocacy.  Circulation. 2006;  113 1260-1270
    Google Scholar
  • 4 Bardy G H, Lee K L, Mark D B. et al . Home use of automated external defibrillators for sudden cardiac arrest.  N Engl J Med. 2008;  , e-Pub
    Google Scholar
  • 5 Bayes de Luna A, Coumel P, Leclercq J F. Ambulatory sudden cardiac death: mechanisms of production of fatal arrhythmia on the basis of data from 157 cases.  Am Heart J. 1989;  117 151-159
    Google Scholar
  • 6 Caffrey S L, Willoughby P J, Pepe P E, Becker L B. Public use of automated external defibrillators.  N Engl J Med. 2002;  347 1242-1247
    Google Scholar
  • 7 Capucci A, Aschieri D, Piepoli M F, Bardy G H, Iconomu E, Arvedi M. Tripling survival from sudden cardiac arrest via early defibrillation without traditional education in cardiopulmonary resuscitation.  Circulation. 2002;  27, 106 1065-1070
    Google Scholar
  • 8 Dillon S M, Kwaku K F. Basic mechanisms in defibrillation. In: Zipes, Jalife Cardiac Electrophysiology – From Cell to Bedside. 3rd edition. W.B. Saunders 2000
    Google Scholar
  • 9 Empfehlungen der Bundesärztekammer zur Defibrillation mit automatisierten externen Defibrillatoren (AED) durch Laien (2001).  Dtsch Ärzteblatt. 2001;  98 A1211
    Google Scholar
  • 10 Fleming S H. OSHA encourages defibrillator use to revive workers with cardiac arrest. OSHA Trade News Release, US Department of Labor. December 17, 2001 Available at: http://www.osha.gov/media/oshnews/dec01/trade-2001.Accessed December 17,2001
    Google Scholar
  • 11 Gliner B E, Lyster T E, Dillon S M, Bardy G H. Transthoracic defibrillation of swine with monophasic and biphasic waveforms.  Circulation. 1995;  92 1634-1643
    Google Scholar
  • 12 Groeneveld P W, Kwong J L, Liu Y, Rodriguez A J, Jones M P, Sanders G D, Garber A M. Cost-effectiveness of automated external defibrillators on airlines.  JAMA. 2001;  286 1482-1489
    Google Scholar
  • 13 Gundry J W, Comess K A, DeRook F A, Jorgenson D, Bardy G H. Comparison of naive sixth-grade children with trained professionals in the use of an automated external defibrillator.  Circulation. 1999;  100 1703-1707
    Google Scholar
  • 14 Hallstrom A P, Ornato J P, Weisfeldt M. et al . Public-access defibrillation and survival after out-of-hospital cardiac arrest.  N Engl J Med. 2004;  351 637-646
    Google Scholar
  • 15 Hoffmann S, Krämer R, Krause-Dietering B, Andresen D. Der plötzliche Herztod:- Gibt es geeignete Orte für die Installation von Defibrillatoren?.  Clin Res Cardiol. 2008;  97 (Suppl. 1) 534
    Google Scholar
  • 16 Jorgenson D B, Skarr T, Russell J K, Snyder D E, Uhrbrock K. AED use in businesses, public facilities and homes by minimally trained first responders.  Resuscitation. 2003;  59 225-233
    Google Scholar
  • 17 Karch S B, Graff J, Young S. et al . Response time and outcome for cardiac arrest in Las Vegas casinos.  Am J Emerg Med. 1998;  16 249-253
    Google Scholar
  • 18 Kerber R E, Becker L B, Bourland J D. et al . Automatic external defibrillators for public access defibrillation: recommendations for specifying and reporting arrhythmia analysis algorithm performance, incorporating new waveforms, and enhancing safety. A statement for health professionals from the American Heart Association Task Force on Automatic External Defibrillation, Subcommittee on AED Safety and Efficacy.  Circulation. 1997;  95 1677-1682
    Google Scholar
  • 19 Kerber R E, Martins J B, Kienzle M G, Constantin L, Olshansky B, Hopson R, Charbonnier F. Energy, current, and success in defibrillation and cardioversion: clinical studies using an automated impedance-based method of energy adjustment.  Circulation. 1988;  77 1038-1046
    Google Scholar
  • 20 Larsen M P, Eisenberg M S, Cummins R O, Hallstrom A P. Predicting survival from out-of-hospital cardiac arrest: a graphic model.  Ann Emerg Med. 1993;  22 1652-1658
    Google Scholar
  • 21 McInnis K, Herbert W, Herbert D, Herbert J, Ribisl P, Franklin B. Low compliance with national standards for cardiovascular emergency preparedness at health clubs.  Chest. 2001;  120 283-288
    Google Scholar
  • 22 Myerburg R J. Sudden cardiac death: exploring the limits of our knowledge.  J Cardiovasc Electrophysiol. 2001;  12 369-381
    Google Scholar
  • 23 Myerburg R J, Fenster J, Velez M, Rosenberg D, Lai S, Kurlansky P, Newton S, Knox M, Castellanos A. Impact of community-wide police car deployment of automated external defibrillators on survival from out-of-hospital cardiac arrest.  Circulation. 2002;  106 1058-1064
    Google Scholar
  • 24 Nadkarni V M, Larkin G L, Peberdy M A. et al . First documented rhythm and clinical outcome from in-hospital cardiac arrest among children and adults.  JAMA. 2006;  295 50-57
    Google Scholar
  • 25 Nichol G, Stiell I G, Laupacis A, Pham B, De Maio V J, Wells G A. A cumulative meta-analysis of the effectiveness of defibrillator-capable emergency medical services for victims of out-of-hospital cardiac arrest.  Ann Emerg Med. 1999;  34 517-525
    Google Scholar
  • 26 Page R L, Joglar J A, Kowal R C. et al . Use of automated external defibrillators by a U.S. airline.  N Engl J Med. 2000;  343 1210-1216
    Google Scholar
  • 27 Peberdy M A, Kaye W, Ornato J P, Larkin G L, Nadkarni V, Mancini M E, Berg R A, Nichol G, Lane-Trultt T. et al: Cardiopulmonary resuscitation of adults in the hospital: A report of 14 720 cardiac arrests from the National Registry of Cardiopulmonary Resuscitation.  Resuscitation. 2003;  58 297-308
    Google Scholar
  • 28 Priori S G, Bossaert L L, Chamberlain D A, Napolitano C, Arntz H R, Koster R W, Monsieurs K G, Capucci A, Wellens H J. ESC-ERC recommendations for the use of automated external defibrillators (AEDs) in Europe.  Eur Heart J. 2004;  25 437-445
    Google Scholar
  • 29 Samson R, Berg R, Bingham R. Pediatric Advanced Life Support Task Force, International Liaison Committee on Resuscitation. Use of automated external defibrillators for children: an update. An advisory statement from the Pediatric Advanced Life Support Task Force, International Liaison Committee on Resuscitation.  Resuscitation. 2003;  57 237-243
    Google Scholar
  • 30 Schneider T, Martens P R, Paschen H. et al . Multicenter, randomized, controlled trial of 150-J biphasic shocks compared with 200 to 360 J monophasic shocks in the resuscitation of out-of-hospital cardiac arrest victims. Optimized Response to Cardiac Arrest (ORCA) Investigators.  Circulation. 2000;  102 1780-1787
    Google Scholar
  • 31 Stults K R, Brown D D, Kerber R E. Efficacy of an automated external defibrillator in the management of out-of-hospital cardiac arrest: validation of the diagnostic algorithm and initial clinical experience in a rural environment.  Circulation. 1986;  73 701-709
    Google Scholar
  • 32 Tang W, Weil M H, Sun S, Yamaguchi H, Povoas H P, Pernat A M, Bisera J. The effects of biphasic and conventional monophasic defibrillation on postresuscitation myocardial function.  J Am Coll Cardiol. 1999;  34 815-822
    Google Scholar
  • 33 Thompson P D. The cardiovascular complications of vigorous physical activity.  Arch Intern Med. 1996;  156 2297-2302
    Google Scholar
  • 34 Trappe H J, Andresen D, Arntz H R, Becker H J, Werdan K. Stellungnahme der Deutschen Gesellschaft für Kardiologie – Herz- und Kreislaufforschung (DGK). Position paper on „automated external defibrillation”.  Z Kardiol. 2005;  94 287-295
    Google Scholar
  • 35 Valenzuela T D, Roe D J, Cretin S, Spaite D W, Larsen M P. Estimating effectiveness of cardiac arrest interventions: a logistic regression survival model.  Circulation. 1997;  96 3308-3313
    Google Scholar
  • 36 Valenzuela T D, Roe D J, Nichol G, Clark L L, Spaite D W, Hardman R G. Outcomes of rapid defibrillation by security officers after cardiac arrest in casinos.  N Engl J Med. 2000;  343 1206-1209
    Google Scholar
  • 37 de Vreede-Swagemakers J JM, Gorgels A PM, Dubois-Arbouw W I, van Ree J W, Daemen M JAP, Houben L GE, Wellens H JJ. Out-of-Hospital Cardiac Arrest in the 1990 s: A Population-Based Study in the Maastricht Area on Incidence, Characteristics and Survival.  J Am Coll Cardiol. 1997;  30 1500-1506
    Google Scholar
  • 38 Weaver W D, Cobb L A, Copass M K, Hallstrom A P. Ventricular defibrillation – a comparative trial using 175-J and 320-J shocks.  N Engl J Med. 1982;  307 1101-1106
    Google Scholar
  • 39 Zafari A M, Zarter S K, Heggen V, Wilson P, Taylor R A, Reddy K, Backscheider A G, Dudley S C Jr. A program encouraging early defibrillation results in improved in-hospital resuscitation efficacy.  J Am Coll Cardiol. 2004;  44 846-852
    Google Scholar

Priv. Doz. Dr. med. H. Wieneke

Westdeutsches Herzzentrum, Universitätsklinikum Essen

Hufelandstr. 55

45147 Essen

Email: heinrich.wieneke@uni-essen.de

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