Particulate matter in aerosols produced by two last generation electronic cigarettes: a comparison in a real-world environment

IF 10.4 2区医学 Q1 RESPIRATORY SYSTEM

Pulmonology Pub Date : 2024-03-01 DOI:10.1016/j.pulmoe.2021.03.005

A. Borgini , C. Veronese , C. De Marco , R. Boffi , A. Tittarelli , M. Bertoldi , E. Fern..ndez , O. Tigova , S. Gallus , A. Lugo , G. Gorini , G. Carreras , M.J. L..pez , X. Continente , S. Semple , R. Dobson , L. Clancy , S. Keogan , A. Tzortzi , C. Vardavas , A.A. Ruprecht

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引用次数: 0

Abstract

The design of e-cigarettes (e-cigs) is constantly evolving and the latest models can aerosolize using high-power sub-ohm resistance and hence may produce specific particle concentrations. The aim of this study was to evaluate the aerosol characteristics generated by two different types of electronic cigarette in real-world conditions, such as a sitting room or a small office, in number of particles (particles/cm³).

We compared the real time and time-integrated measurements of the aerosol generated by the e-cigarette types Just Fog and JUUL. Real time (10 s average) number of particles (particles/cm³) in 8 different aerodynamic sizes was measured using an optical particle counter (OPC) model Profiler 212-2. Tests were conducted with and without a Heating, Ventilating Air Conditioning System (HVACS) in operation, in order to evaluate the efficiency of air filtration.

During the vaping sessions the OPC recorded quite significant increases in number of particles/cm³. The JUUL e-cig produced significantly lower emissions than Just Fog with and without the HVACS in operation.

The study demonstrates the rapid volatility or change from liquid or semi-liquid to gaseous status of the e-cig aerosols, with half-life in the order of a few seconds (min. 4.6, max 23.9), even without the HVACS in operation. The e-cig aerosol generated by the JUUL proved significantly lower than that generated by the Just Fog, but this reduction may not be sufficient to eliminate or consistently reduce the health risk for vulnerable non e-cig users exposed to it.

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两种最新一代电子香烟产生的气溶胶中的微粒物质：真实世界环境中的比较。

电子烟（e-cig）的设计在不断发展，最新型号的电子烟可以使用大功率亚欧姆电阻产生气溶胶，因此可能会产生特定浓度的微粒。本研究的目的是评估两种不同类型的电子烟在现实世界条件下（如起居室或小型办公室）产生的气溶胶特性（颗粒数/立方厘米）。我们比较了 Just Fog 和 JUUL 两种电子烟产生的气溶胶的实时测量值和时间积分测量值。我们使用 Profiler 212-2 型光学粒子计数器（OPC）对 8 种不同气动尺寸的粒子数（平均 10 秒）进行了实时测量。测试在有暖通空调系统（HVACS）和没有暖通空调系统（HVACS）的情况下进行，以评估空气过滤的效率。在吸食过程中，OPC 记录到的微粒数量/立方厘米显著增加。在使用和不使用 HVACS 的情况下，JUUL 电子烟的排放量都明显低于 Just Fog。研究表明，电子烟气溶胶从液态或半液态迅速挥发或转变为气态，半衰期约为几秒钟（最短 4.6 秒，最长 23.9 秒），即使没有运行暖通空调系统也是如此。事实证明，JUUL 产生的电子烟气溶胶明显低于 Just Fog 产生的气溶胶，但这种减少可能不足以消除或持续降低接触这种气溶胶的非电子烟使用者的健康风险。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pulmonology Medicine-Pulmonary and Respiratory Medicine

CiteScore

14.30

自引率

5.10%

发文量

159

审稿时长

19 days

期刊介绍： Pulmonology (previously Revista Portuguesa de Pneumologia) is the official journal of the Portuguese Society of Pulmonology (Sociedade Portuguesa de Pneumologia/SPP). The journal publishes 6 issues per year and focuses on respiratory system diseases in adults and clinical research. It accepts various types of articles including peer-reviewed original articles, review articles, editorials, and opinion articles. The journal is published in English and is freely accessible through its website, as well as Medline and other databases. It is indexed in Science Citation Index Expanded, Journal of Citation Reports, Index Medicus/MEDLINE, Scopus, and EMBASE/Excerpta Medica.