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Randomized Controlled Trial
. 2019 Nov 1;2(11):e1914977.
doi: 10.1001/jamanetworkopen.2019.14977.

Effect of Intranasal vs Intramuscular Naloxone on Opioid Overdose: A Randomized Clinical Trial

Paul Dietze  1   2 Marianne Jauncey  3 Allison Salmon  3 Mohammadreza Mohebbi  4 Julie Latimer  3 Ingrid van Beek  5   6 Colette McGrath  7 Debra Kerr  8
Affiliations
Randomized Controlled Trial

Effect of Intranasal vs Intramuscular Naloxone on Opioid Overdose: A Randomized Clinical Trial

Paul Dietze et al. JAMA Netw Open. .

Erratum in

  • Error in Data in the Abstract.
    [No authors listed] [No authors listed] JAMA Netw Open. 2020 Apr 1;3(4):e206593. doi: 10.1001/jamanetworkopen.2020.6593. JAMA Netw Open. 2020. PMID: 32329766 Free PMC article. No abstract available.

Abstract

Importance: Previous unblinded clinical trials suggested that the intranasal route of naloxone hydrochloride was inferior to the widely used intramuscular route for the reversal of opioid overdose.

Objective: To test whether a dose of naloxone administered intranasally is as effective as the same dose of intramuscularly administered naloxone in reversing opioid overdose.

Design, setting, and participants: A double-blind, double-dummy randomized clinical trial was conducted at the Uniting Medically Supervised Injecting Centre in Sydney, Australia. Clients of the center were recruited to participate from February 1, 2012, to January 3, 2017. Eligible clients were aged 18 years or older with a history of injecting drug use (n = 197). Intention-to-treat analysis was performed for all participants who received both intranasal and intramuscular modes of treatment (active or placebo).

Interventions: Clients were randomized to receive 1 of 2 treatments: (1) intranasal administration of naloxone hydrochloride 800 μg per 1 mL and intramuscular administration of placebo 1 mL or (2) intramuscular administration of naloxone hydrochloride 800 μg per 1 mL and intranasal administration of placebo 1 mL.

Main outcomes and measures: The primary outcome measure was the need for a rescue dose of intramuscular naloxone hydrochloride (800 μg) 10 minutes after the initial treatment. Secondary outcome measures included time to adequate respiratory rate greater than or equal to 10 breaths per minute and time to Glasgow Coma Scale score greater than or equal to 13.

Results: A total of 197 clients (173 [87.8%] male; mean [SD] age, 34.0 [7.82] years) completed the trial, of whom 93 (47.2%) were randomized to intramuscular naloxone dose and 104 (52.8%) to intranasal naloxone dose. Clients randomized to intramuscular naloxone administration were less likely to require a rescue dose of naloxone compared with clients randomized to intranasal naloxone administration (8 [8.6%] vs 24 [23.1%]; odds ratio, 0.35; 95% CI, 0.15-0.66; P = .002). A 65% increase in hazard (hazard ratio, 1.65; 95% CI, 1.21-2.25; P = .002) for time to respiratory rate of at least 10 and an 81% increase in hazard (hazard ratio, 1.81; 95% CI, 1.28-2.56; P = .001) for time to Glasgow Coma Scale score of at least 13 were observed for the group receiving intranasal naloxone compared with the group receiving intramuscular naloxone. No major adverse events were reported for either group.

Conclusions and relevance: This trial showed that intranasally administered naloxone in a supervised injecting facility can reverse opioid overdose but not as efficiently as intramuscularly administered naloxone can, findings that largely replicate those of previous unblinded clinical trials. These results suggest that determining the optimal dose and concentration of intranasal naloxone to respond to opioid overdose in real-world conditions is an international priority.

Trial registration: anzctr.org.au Identifier: ACTRN12611000852954.

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Conflict of interest statement

Conflict of Interest Disclosures: Dr Dietze reported receiving grants from the Australian Government Department of Health, National Health and Medical Research Council, and Australian Government Department of Health outside the submitted work; serving as an unpaid member of an advisory board for a nasal naloxone product; and receiving various funds from commercial, philanthropic, and government sources for research unrelated to this work. Ms Jauncey reported receiving grants from the New South Wales, Australia, government outside the submitted work, serving as an unpaid member of an advisory board for a nasal naloxone product, and receiving other government funds for research unrelated to this work. No other disclosures were reported.

Figures

Figure 1.
Figure 1.. CONSORT Diagram of Participant Flow
Figure 2.
Figure 2.. Kaplan-Meier Survival Curve for (A) Time to Respiratory Rate ≥10 and (B) Time to Glasgow Coma Scale (GCS) score ≥13
IM indicates intramuscular; IN, intranasal.
See this image and copyright information in PMC

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