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. 2025 Sep 25.
doi: 10.1097/FBP.0000000000000854. Online ahead of print.

Comparison of the hot-plate pain effect between three inhalation methods and subcutaneous injection of heroin

Yawen Xu  1   2 Qinghua Liu  3 Yuanyuan Chen  1   2 Simeng Zhang  1   2 Dan Wang  2   4 Bin Di  1   2 Peng Xu  1   2   4 Cheng Jiang  1   2 Xiangyu Li  2   4
Affiliations

Comparison of the hot-plate pain effect between three inhalation methods and subcutaneous injection of heroin

Yawen Xu et al. Behav Pharmacol. .

Abstract

Heroin, a widely abused opioid, is frequently consumed via inhalation; however, the majority of existing studies have focused on traditional administrations. This study aimed to compare the analgesic effects of heroin across different deliveries to elucidate the unique characteristics of inhalation. Two distinct inhalation exposure systems (nasal and systemic) were established and validated for stability. Liquid chromatography-tandem mass spectrometry was used to quantify blood concentrations of heroin and its metabolite 6-monoacetylmorphine following subcutaneous injection and three intratracheal/inhalation administrations, establishing dose-concentration linearity for cross-comparison at equivalent blood concentration levels. The analgesic of heroin across four different administrations were assessed by the hot plate pain test while comparing outcomes based on both blood and intracerebral drug concentrations. The findings indicated that both inhalation systems exhibited stable drug delivery, with linear correlations between exposure chamber concentration, administered dose, and resultant blood concentration. A logarithmic correlation was identified between the administration duration and blood concentration levels. Analgesic assessments revealed that significantly enhanced effects in both inhalation groups compared to subcutaneous injection, despite lower delivered doses. At the median effective dose (ED 50 ), olfactory bulb drug concentrations in inhalation were approximately eight-fold higher than in subcutaneous and intratracheal groups, while blood concentrations showed no statistical difference. This study validated that inhaled heroin produces stronger analgesic effects than subcutaneous injection, likely attributed to the mechanism of direct brain entry via the olfactory pathway, which enhances psychoactive potency. These findings highlight the distinct pharmacological properties of inhaled heroin, providing critical insights into its abuse potential.

Keywords: analgesia; heroin; inhalation system; intracerebral drug; intratracheal administration.

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References

    1. Ahmad S, Whiting A, Song D, Reyes JV, Ireifej B, Almas T, Lieber JJ (2021). Chasing the Dragon and stumbling upon an octopus: a case of heroin-induced leukoencephalopathy and reverse Takotsubo cardiomyopathy. Ann Med Surg (Lond) 69:102797.
    1. Bogen IL, Boix F, Andersen JM, Steinsland S, Nerem E, Mørland J (2023). Heroin metabolism in human blood and its impact for the design of an immunotherapeutic approach against heroin effects. Basic Clin Pharmacol Toxicol 133:418–427.
    1. Boix F, Andersen JM, Mørland J (2013). Pharmacokinetic modeling of subcutaneous heroin and its metabolites in blood and brain of mice. Addict Biol 18:1–7.
    1. Buchanan WW, Rainsford KD, Kean CA, Kean WF (2024). Narcotic analgesics. Inflammopharmacology 32:23–28.
    1. Crowe TP, Greenlee MHW, Kanthasamy AG, Hsu WH (2018). Mechanism of intranasal drug delivery directly to the brain. Life Sci 195:44–52.

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