吸入尼古丁药理学的最新发现：临床前和临床体内研究。

Recent findings in the pharmacology of inhaled nicotine: Preclinical and clinical in vivo studies.

机构信息

Department of Psychiatry, Yale School of Medicine, United States.

出版信息

Neuropharmacology. 2020 Oct 1;176:108218. doi: 10.1016/j.neuropharm.2020.108218. Epub 2020 Jun 24.

DOI:10.1016/j.neuropharm.2020.108218

PMID:32592708

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7529934/

Abstract

INTRODUCTION

The rise of vaping in adolescents, the recent entrance of new inhaled nicotine products such as iQOS on the market and e-cigarette or vaping product use-associated lung injury cases has created concern for the use of inhaled non-combustible nicotine products. This narrative review discusses recent experimental in vivo studies that utilize human, rat and mouse models to understand the pharmacological impact of nicotine from non-combustible products.

METHODS

The search engine PubMed was utilized with the following search terms: inhaled nicotine, nicotine e-cigarette, heated tobacco products, iQOS, electronic cigarette, nicotine inhaler, nicotine vaping. This review highlights recent primary in vivo studies of inhaled nicotine administration experimental paradigms that occurred in laboratory settings using human and rodent (rats and mice) models that have been published from January 2017-December 2019.

RESULTS

The pharmacokinetics of nicotine via e-cigarettes is influenced by the PG/VG and flavor constituents in e-liquids, the presence of nicotine salts in e-liquids, puff topography of nicotine and tobacco product users and the power of the e-cigarette device. The pharmacodynamic impact of inhaled nicotine has cardiovascular, pulmonary and central nervous system implications.

CONCLUSION

The articles reviewed here highlight the importance of both animal and human models to fully understand the impact of inhaled nicotine pharmacology There is a need for more rodent pharmacokinetic inhaled nicotine studies to understand the influences of factors such as flavor and nicotine salts. Additionally, consensus on nicotine measurement in both human and rodent studies is greatly needed.

摘要

简介

青少年中蒸气烟的兴起、最近市场上新的吸入尼古丁产品（如 iQOS）的出现以及与电子烟或蒸气烟产品使用相关的肺损伤病例，这引起了人们对使用吸入式非燃烧尼古丁产品的关注。本综述讨论了最近的实验性体内研究，这些研究利用人体、大鼠和小鼠模型来了解非燃烧尼古丁产品的药理学影响。

方法

使用以下搜索词在搜索引擎 PubMed 上进行搜索：吸入尼古丁、电子烟、加热烟草产品、iQOS、电子烟、尼古丁吸入器、尼古丁蒸气烟。本综述重点介绍了最近在实验室环境中使用人体和啮齿动物（大鼠和小鼠）模型进行的吸入尼古丁给药实验范式的体内研究，这些研究发表于 2017 年 1 月至 2019 年 12 月。

结果

电子烟中的尼古丁药代动力学受电子烟液中的 PG/VG 和香料成分、电子烟液中尼古丁盐的存在、尼古丁抽吸模式和烟草制品使用者以及电子烟设备的功率的影响。吸入尼古丁的药效学影响涉及心血管、肺部和中枢神经系统。

结论

本文综述的文章强调了动物和人体模型对于全面了解吸入尼古丁药理学的重要性。需要进行更多的啮齿动物吸入尼古丁药代动力学研究，以了解香料和尼古丁盐等因素的影响。此外，非常需要在人体和啮齿动物研究中就尼古丁测量达成共识。

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