References
- Andersen LW, Kurth T, Chase M, Berg KM, Cocchi MN, Callaway C, Donnino MW. Early administration of epinephrine (adrenaline) in patients with cardiac arrest with initial shockable rhythm in hospital: propensity score matched analysis. BMJ. 2016;353:i1577.
- Donnino MW, Salciccioli JD, Howell MD, Cocchi MN, Giberson B, Berg K, Gautam S, Callaway C, for the American Heart Association's Get With The Guidelines-Resuscitation Investigators Time to administration of epinephrine and outcome after in-hospital cardiac arrest with non-shockable rhythms: retrospective analysis of large in-hospital data registry. BMJ. 2014;348(May 20 2):g3028–g3028. doi:10.1136/bmj.g3028.
- Hagihara A, Hasegawa M, Abe T, Nagata T, Wakata Y, Miyazaki S. Prehospital epinephrine use and survival among patients with out-of-hospital cardiac arrest. JAMA. 2012;307(11):1161–8. 10.1001/jama.2012.294
- Hasegawa M, Abe T, Nagata T, Onozuka D, Hagihara A. The number of prehospital defibrillation shocks and 1-month survival in patients with out-of-hospital cardiac arrest. Scand J Trauma Resusc Emerg Med. 2015;23(1):34.
- Olasveengen TM, Sunde K, Brunborg C, Thowsen J, Steen PA, Wik L. Intravenous drug administration during out-of-hospital cardiac arrest: a randomized trial. JAMA. 2009;302(20):2222–9.
- Ornato JP, Peberdy MA, Siegel CR, Lindfors R, Ludin T, Garrison D. Delay to initiation of out-of-hospital cardiac arrest EMS treatments. Am J Emerg Med. 2021;41:60–5. doi:10.1016/j.ajem.2020.12.024.
- Valenzuela TD, Roe DJ, Cretin S, Spaite DW, Larsen MP. Estimating effectiveness of cardiac arrest interventions: a logistic regression survival model. Circulation. 1997;96(10):3308–13. doi:10.1161/01.cir.96.10.3308.
- Valenzuela TD, Roe DJ, Nichol G, Clark LL, Spaite DW, Hardman RG. Outcomes of rapid defibrillation by security officers after cardiac arrest in casinos. N Engl J Med. 2000;343(17):1206–9. doi:10.1056/NEJM200010263431701.
- Valenzuela TD, Spaite DW, Meislin HW, Clark LL, Wright AL, Ewy GA. Emergency vehicle intervals versus collapse-to-CPR and collapse-to-defibrillation intervals: monitoring emergency medical services system performance in sudden cardiac arrest. Ann Emerg Med. 1993;22(11):1678–83. doi:10.1016/S0196-0644(05)81305-8
- Cardiac Arrest Registry to Enhance Survival (CARES). EMS Data Elements [December 27, 2021]. Available from: https://mycares.net/sitepages/dataelements.jsp.
- Clawson J, Olola C, Heward A, Patterson B, Scott G. The Medical Priority Dispatch System's ability to predict cardiac arrest outcomes and high acuity pre-hospital alerts in chest pain patients presenting to 9-9-9. Resuscitation. 2008;78(3):298–306. doi:10.1016/j.resuscitation.2008.03.229
- Clawson J, Olola CH, Heward A, Scott G, Patterson B. Accuracy of emergency medical dispatchers' subjective ability to identify when higher dispatch levels are warranted over a Medical Priority Dispatch System automated protocol's recommended coding based on paramedic outcome data. Emerg Med J. 2007;24(8):560–3. doi:10.1136/emj.2007.047928.
- SQUIRE. Revised Standards for Quality Improvement Reporting Excellence in Education (SQUIRE 2.0) 2015. [cited 2022 5/11/22]. Available from: http://www.squire-statement.org/.
- Virginia Department of Health. COVID-19 cases in Richmond, VA 2021 [Available from: https://www.vdh.virginia.gov/coronavirus/see-the-numbers/covid-19-in-virginia/covid-19-in-virginia-cases/.
- Williams K, Lang ES, Panchal AR, Gasper JJ, Taillac P, Gouda J, Lyng JW, Goodloe JM, Hedges M. Evidence-based guidelines for EMS administration of naloxone. Prehosp Emerg Care. 2019;23(6):749–63. doi:10.1080/10903127.2019.1597955.
- Moe J, Godwin J, Purssell R, O'Sullivan F, Hau JP, Purssell E, Curran J, Doyle-Waters MM, Brasher PMA, Buxton JA, et al. Naloxone dosing in the era of ultra-potent opioid overdoses: a systematic review. CJEM. 2020;22(2):178–86. doi:10.1017/cem.2019.471.
- Chou R, Korthuis PT, McCarty D, Coffin PO, Griffin JC, Davis-O'Reilly C, Grusing S, Daya M. Management of suspected opioid overdose with naloxone in out-of-hospital settings: a systematic review. Ann Intern Med. 2017;167(12):867–75. doi:10.7326/M17-2224.
- Buajordet I, Naess AC, Jacobsen D, Brors O. Adverse events after naloxone treatment of episodes of suspected acute opioid overdose. Eur J Emerg Med. 2004;11(1):19–23.
- Skulberg AK, Tylleskär I, Valberg M, Braarud A, Dale J, Heyerdahl F, Skålhegg T, Barstein J, Mellesmo S, Dale O, et al. Comparison of intranasal and intramuscular naloxone in opioid overdoses managed by ambulance staff: a double-dummy, randomised. Controlled Trial. Addiction. 2022;117(6):1658–67. doi:10.1111/add.15806].
- Cone DC, Bogucki S, Burns K, D'Onofrio G, Hawk K, Joseph D, Fiellin DA. Naloxone use by emergency medical services during the COVID-19 pandemic: a national survey. J Addict Med. 2020;14(6):e369–e371.e71. doi:10.1097/ADM.0000000000000746.
- Communicable Disease Center (CDC) CfDCaP. Increase in fatal drug overdoses across the United States driven by synthetic opioids before and during the COVID-19 pandemic Atlanta, GA CDC Health Alert Network (HAN). 2020. Available from https://emergency.cdc.gov/han/2020/han00438.asp?ACSTrackingID=USCDC_511-DM44961&ACSTrackingLabel=HAN%20438%20-%20General%20Public&deliveryName=USCDC_511-DM44961.
- Lee Y, Lui LM, Brietzke E, Liao Y, Lu C, Ho R, Subramaniapillai M, Mansur RB, Rosenblat JD, McIntyre RS, et al. Comparing mortality from covid-19 to mortality due to overdose: a micromort analysis. J Affect Disord. 2022;296:514–21.
- Vieson J, Yeh AB, Lan Q, Sprague JE. During the COVID-19 pandemic, opioid overdose deaths revert to previous record levels in Ohio. J Addict Med. 2022;16(2):e118–e122. doi:10.1097/ADM.0000000000000874.
- Macmadu A, Batthala S, Correia Gabel AM, Rosenberg M, Ganguly R, Yedinak JL, Hallowell BD, Scagos RP, Samuels EA, Cerdá M, et al. Comparison of characteristics of deaths from drug overdose before vs during the COVID-19 pandemic in Rhode Island. JAMA Netw Open. 2021;4(9):e2125538.
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