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Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine
Published in: Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine 1/2019

Open Access 01-12-2019 | Cardiopulmonary Resuscitation | Original research

Epinephrine during resuscitation of traumatic cardiac arrest and increased mortality: a post hoc analysis of prospective observational study

Authors: Ryo Yamamoto, Masaru Suzuki, Kei Hayashida, Jo Yoshizawa, Atsushi Sakurai, Nobuya Kitamura, Takashi Tagami, Taka-aki Nakada, Munekazu Takeda, Junichi Sasaki, on behalf of the SOS-KANTO 2012 Study Group

Published in: Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine | Issue 1/2019

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Abstract

Background

The beneficial effect of epinephrine during resuscitation from out-of-hospital cardiac arrest (OHCA) has been inconclusive, and potential harm has been suggested, particularly in trauma victims. Although no significant improvement in neurological outcomes has been found among resuscitated patients using epinephrine, including trauma patients, the use of epinephrine is recommended in the Advanced Trauma Life Support protocol. Given that the use of vasopressors was reported to be associated with increased mortality in patients with massive bleeding, the undesirable effects of epinephrine during the resuscitation of traumatic OHCA should be elucidated. We hypothesised that resuscitation with epinephrine would increase mortality in patients with OHCA following trauma.

Methods

This study is a post-hoc analysis of a prospective, multicentre, observational study on patients with OHCA between January 2012 and March 2013. We included adult patients with traumatic OHCA who were aged ≥15 years and excluded those with missing survival data. Patient data were divided into epinephrine or no-epinephrine groups based on the use of epinephrine during resuscitation at the hospital. Propensity scores were developed to estimate the probability of being assigned to the epinephrine group using multivariate logistic regression analyses adjusted for known survival predictors. The primary outcome was survival 7 days after injury, which was compared among the two groups after propensity score matching.

Results

Of the 1125 adults with traumatic OHCA during the study period, 1030 patients were included in this study. Among them, 822 (79.8%) were resuscitated using epinephrine, and 1.1% (9/822) in the epinephrine group and 5.3% (11/208) in the no-epinephrine group survived 7 days after injury. The use of epinephrine was significantly associated with decreased 7-day survival (odds ratio = 0.20; 95% CI = 0.08–0.48; P < 0.01), and this result was confirmed by propensity score-matching analysis, in which 178 matched pairs were examined (adjusted odds ratio = 0.11; 95% CI = 0.01–0.85; P = 0.02).

Conclusions

The relationship between the use of epinephrine during resuscitation and decreased 7-day survival was found in patients with OHCA following trauma, and the propensity score-matched analyses validated the results. Resuscitation without epinephrine in traumatic OHCA should be further studied in a randomised controlled trial.
Literature
1.
Long B, Koyfman A. Emergency medicine myths: epinephrine in cardiac arrest. J Emerg Med. 2017;52:809–14.CrossRef
2.
Soar J, Callaway CW, Aibiki M, Böttiger BW, Brooks SC, Deakin CD, et al. Advanced life support: 2015 international consensus on cardiopulmonary resuscitation and emergency cardiovascular care science with treatment recommendations. Resuscitation. 2015;95:e71–120.CrossRef
3.
Link MS, Berkow LC, Kudenchuk PJ, Halperin HR, Hess EP, Moitra VK, et al. Part 7: adult advanced cardiovascular life support: 2015 American Heart Association guidelines update for cardiopulmonary resuscitation and emergency cardiovascular care. Circulation. 2015;132:S444–64.CrossRef
4.
Neumar RW, Otto CW, Link MS, Kronick SL, Shuster M, Callaway CW, et al. Part 8: adult advanced cardiovascular life support: 2010 American Heart Association guidelines for cardiopulmonary resuscitation and emergency cardiovascular care. Circulation. 2012;122:S729–67.CrossRef
5.
Kleinman ME, Perkins GD, Bhanji F, Billi JE, Bray JE, Callaway CW, et al. ILCOR scientific knowledge gaps and clinical research priorities for cardiopulmonary resuscitation and emergency cardiovascular care: a consensus statement. Resuscitation. 2018;127:132–46.CrossRef
6.
Callaham M. Evidence in support of a back-to-basics approach in out-of-hospital cardiopulmonary resuscitation vs. “advanced treatment”. JAMA Intern Med. 2015;175:205–6.CrossRef
7.
Perkins GD, Cottrell P, Gates S. Is adrenaline safe and effective as a treatment for out of hospital cardiac arrest? BMJ. 2014;348:g2435.CrossRef
8.
Lin S, Callaway CW, Shah PS, Wagner JD, Beyene J, Ziegler CP, et al. Adrenaline for out-of-hospital cardiac arrest resuscitation: a systematic review and meta-analysis of randomized controlled trials. Resuscitation. 2014;85:732–40.CrossRef
9.
Loomba RS, Nijhawan K, Aggarwal S, Arora RR. Increased return of spontaneous circulation at the expense of neurologic outcomes: is prehospital epinephrine for out-of-hospital cardiac arrest really worth it? J Crit Care. 2015;30:1376–81.CrossRef
10.
Perkins GD, Ji C, Deakin CD, Quinn T, Nolan JP, Scomparin C, et al. PARAMEDIC2 Collaborators. A randomized trial of epinephrine in out-of-hospital cardiac arrest. N Engl J Med. 2018;379:711–21.CrossRef
11.
Jacobs IG, Finn JC, Jelinek GA, Oxer HF, Thompson PL. Effect of adrenaline on survival in out-of-hospital cardiac arrest: a randomised double-blind placebo-controlled trial. Resuscitation. 2011;82:1138–43.CrossRef
12.
Gueugniaud PY, Mols P, Goldstein P, Pham E, Dubien PY, Deweerdt C, et al. A comparison of repeated high doses and repeated standard doses of epinephrine for cardiac arrest outside the hospital. N Engl J Med. 1998;339:1595–601.CrossRef
13.
Callaway CW. Questioning the use of epinephrine to treat cardiac arrest. JAMA. 2012;307:1198–9.CrossRef
14.
Irfan FB, Consunji R, El-Menyar A, George P, Peralta R, Al-Thani H, et al. Cardiopulmonary resuscitation of out-of-hospital traumatic cardiac arrest in Qatar: a nationwide population-based study. Int J Cardiol. 2017;240:438–43.CrossRef
15.
Chiang WC, Chen SY, Ko PC, Hsieh MJ, Wang HC, Huang EP, et al. Prehospital intravenous epinephrine may boost survival of patients with traumatic cardiac arrest: a retrospective cohort study. Scand J Trauma Resusc Emerg Med. 2015;23:102.CrossRef
16.
American College of Surgeons. Thoracic Trauma. In: American College of Surgeons. ed. Advanced trauma life support student course manual – 10th. 2018. 62–81. Chicago: American College of Surgeons.
17.
Plurad DS, Talving P, Lam L, Inaba K, Green D, Demetriades D. Early vasopressor use in critical injury is associated with mortality independent from volume status. J Trauma. 2011;71:565–70.CrossRef
18.
Kowalenko T, Stern S, Dronen S, Wang X. Improved outcome with hypotensive resuscitation of uncontrolled hemorrhagic shock in a swine model. J Trauma. 1992;33:349–53.CrossRef
19.
Aoki M, Abe T, Saitoh D, Hagiwara S, Oshima K. Use of vasopressor increases the risk of mortality in traumatic hemorrhagic shock: a nationwide cohort study in Japan. Crit Care Med. 2018;46:e1145–51.CrossRef
20.
Stiell IG, Nesbitt LP, Pickett W, Munkley D, Spaite DW, Banek J, et al. The OPALS major trauma study: impact of advanced life-support on survival and morbidity. CMAJ. 2008;178:1141–52.CrossRef
21.
SOS-KANTO 2012 Study Group. Changes in treatments and outcomes among elderly patients with out-of-hospital cardiac arrest between 2002 and 2012: A post hoc analysis of the SOS-KANTO 2002 and 2012. Resuscitation. 2015;97:76–82.CrossRef
22.
SOS-KANTO study group. Cardiopulmonary resuscitation by bystanders with chest compression only (SOS-KANTO): an observational study. Lancet. 2007;369:920–6.CrossRef
23.
Austin PC. An introduction to propensity score methods for reducing the effects of confounding in observational studies. Multivariate Behav Res. 2011;46:399–424.CrossRef
24.
Seamon MJ, Haut ER, Van Arendonk K, Barbosa RR, Chiu WC, Dente CJ, et al. An evidence-based approach to patient selection for emergency department thoracotomy: a practice management guideline from the eastern Association for the Surgery of trauma. J Trauma Acute Care Surg. 2015;79:159–73.CrossRef
25.
Burlew CC, Moore EE, Moore FA, Coimbra R, McIntyre RC Jr, Davis JW, et al. Western trauma association critical decisions in trauma: resuscitative thoracotomy. J Trauma Acute Care Surg. 2012;73:1359–63.CrossRef
26.
Slessor D, Hunter S. To be blunt: are we wasting our time? Emergency Department thoracotomy following blunt trauma: a systematic review and meta-analysis. Ann Emerg Med. 2015;65:297–307.e16.CrossRef
27.
Andersen LW, Kurth T, Chase M, Berg KM, Cocchi MN, Callaway C, et al. Early administration of epinephrine (adrenaline) in patients with cardiac arrest with initial shockable rhythm in hospital: propensity score matched analysis. BMJ. 2016;353:i1577.CrossRef
28.
Brookhart MA, Schneeweiss S, Rothman KJ, Glynn RJ, Avorn J, Stürmer T. Variable selection for propensity score models. Am J Epidemiol. 2006;163:1149–56.CrossRef
29.
Lunt M. Selecting an appropriate caliper can be essential for achieving good balance with propensity score matching. Am J Epidemiol. 2014;179:226–35.CrossRef
30.
Callaway CW. Epinephrine for cardiac arrest. Curr Opin Cardiol. 2013;28:36–42.CrossRef
31.
Deakin CD, Yang J, Nguyen R, Zhu J, Brett SJ, Nolan JP, et al. Effects of epinephrine on cerebral oxygenation during cardiopulmonary resuscitation: a prospective cohort study. Resuscitation. 2016;109:138–44.CrossRef
32.
Ristagno G, Tang W, Huang L, Fymat A, Chang YT, Sun S, et al. Epinephrine reduces cerebral perfusion during cardiopulmonary resuscitation. Crit Care Med. 2009;37:1408–15.CrossRef
33.
Albreiki M, Voegeli D. Permissive hypotensive resuscitation in adult patients with traumatic haemorrhagic shock: a systematic review. Eur J Trauma Emerg Surg. 2018;44:191–202.CrossRef
34.
Lundy DJ, Ross SE, Schorr C, Jones AE, Trzeciak S. Outcomes of trauma victims with cardiac arrest who survive to intensive care unit admission. J Trauma. 2011;71:E12–6.CrossRef
35.
Woolley T, Thompson P, Kirkman E, Reed R, Ausset S, Beckett A, et al. Trauma hemostasis and oxygenation research network position paper on the role of hypotensive resuscitation as part of remote damage control resuscitation. J Trauma Acute Care Surg. 2018;84:S3–13.CrossRef
36.
Pozner CN, Zane R, Nelson SJ, Levine M. International EMS systems: the United States: past, present, and future. Resuscitation. 2004;60:239–44.CrossRef
37.
Willis CD, Cameron PA, Bernard SA, Fitzgerald M. Cardiopulmonary resuscitation after traumatic cardiac arrest is not always futile. Injury. 2006;37:448–54.CrossRef
38.
Fukuda T, Ohashi-Fukuda N, Kondo Y, Hayashida K, Kukita I. Association of prehospital advanced life support by physician with survival after out-of-hospital cardiac arrest with blunt trauma following traffic collisions: Japanese registry-based study. JAMA Surg. 2018;153:e180674.CrossRef
39.
Duchateau FX, Hamada S, Raux M, Gay M, Mantz J, Paugam Burtz C, et al. Long-term prognosis after out-of-hospital resuscitation of cardiac arrest in trauma patients: prehospital trauma-associated cardiac arrest. Emerg Med J. 2017;34:34–8.CrossRef
40.
Jammer I, Wickboldt N, Sander M, Smith A, Schultz MJ, Pelosi P, et al. European Society of Anaesthesiology (ESA) and the European Society of Intensive Care Medicine (ESICM); European Society of Anaesthesiology; European Society of Intensive Care Medicine. Standards for definitions and use of outcome measures for clinical effectiveness research in perioperative medicine: European Perioperative Clinical Outcome (EPCO) definitions: A statement from the ESA-ESICM joint taskforce on perioperative outcome measures. Eur J Anaesthesiol. 2015;32:88–105.CrossRef
Metadata
Title
Epinephrine during resuscitation of traumatic cardiac arrest and increased mortality: a post hoc analysis of prospective observational study
Authors
Ryo Yamamoto
Masaru Suzuki
Kei Hayashida
Jo Yoshizawa
Atsushi Sakurai
Nobuya Kitamura
Takashi Tagami
Taka-aki Nakada
Munekazu Takeda
Junichi Sasaki
on behalf of the SOS-KANTO 2012 Study Group
Publication date
01-12-2019
Publisher
BioMed Central
DOI
https://doi.org/10.1186/s13049-019-0657-8

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