电子烟仅在令使用者反感的条件下才会释放出极高水平的甲醛：在经过验证的实际使用条件下进行的一项重复研究。

E-cigarettes emit very high formaldehyde levels only in conditions that are aversive to users: A replication study under verified realistic use conditions.

作者信息

Farsalinos Konstantinos E, Voudris Vassilis, Spyrou Alketa, Poulas Konstantinos

机构信息

Department of Cardiology, Onassis Cardiac Surgery Center, Sygrou 356, Kallithea 17674, Greece; Department of Pharmacy, University of Patras, Rio-Patras 26500, Greece; National School of Public Health, Greece.

Department of Cardiology, Onassis Cardiac Surgery Center, Sygrou 356, Kallithea 17674, Greece.

出版信息

Food Chem Toxicol. 2017 Nov;109(Pt 1):90-94. doi: 10.1016/j.fct.2017.08.044. Epub 2017 Aug 31.

DOI:10.1016/j.fct.2017.08.044

PMID:28864295

Abstract

PURPOSE

In 2015, a study identified 5-15-fold higher levels of formaldehyde emissions from an old-generation e-cigarette tested at 5.0 V compared to tobacco cigarettes. We set to replicate this study using the same e-cigarette equipment and e-liquid, while checking for the generation of dry puffs.

DESIGN

Experienced e-cigarette users (n = 26) took 4 s puffs at different voltage settings and were asked to report the generation of dry puffs. Formaldehyde emissions were measured at both realistic and dry puff conditions.

RESULTS

Dry puffs were detected at ≤4.2 V by 88% of participants; thus, 4.0 V was defined as the upper limit of realistic use. Levels ranged from 3.4 (SE = 2.2) μg/10 puffs at 3.3 V to 718.2 (SE = 58.2) μg/10 puffs at 5.0 V. The levels detected at 4.0 V were 19.8 (SE = 5.6) μg/10 puffs. At 4.0 V, the daily exposure to formaldehyde from consuming 3 g of liquid with the device tested would be 32% lower compared to smoking 20 tobacco cigarettes.

CONCLUSIONS

The high levels of formaldehyde emissions that were reported in a previous study were caused by unrealistic use conditions that create the unpleasant taste of dry puffs to e-cigarette users and are thus avoided.

摘要

目的

2015年的一项研究发现，与烟草香烟相比，在5.0伏电压下测试的老一代电子烟的甲醛排放量要高5至15倍。我们着手使用相同的电子烟设备和电子烟液重复这项研究，同时检查是否会产生干抽现象。

设计

经验丰富的电子烟使用者（n = 26）在不同电压设置下进行4秒的抽吸，并被要求报告是否产生干抽现象。在实际抽吸和干抽条件下均测量了甲醛排放量。

结果

88%的参与者在电压≤4.2伏时检测到干抽现象；因此，4.0伏被定义为实际使用的上限。甲醛排放量范围从3.3伏时的3.4（标准误 = 2.2）μg/10口到5.0伏时的718.2（标准误 = 58.2）μg/10口。在4.0伏时检测到的甲醛排放量为19.8（标准误 = 5.6）μg/10口。在4.0伏时，使用测试设备消耗3克电子烟液时，每日甲醛暴露量比吸20支烟草香烟低32%。

结论

先前研究中报告的高甲醛排放量是由不切实际的使用条件导致的，这种条件会给电子烟使用者带来不愉快的干抽味道，因此会被避免。

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电子烟仅在令使用者反感的条件下才会释放出极高水平的甲醛：在经过验证的实际使用条件下进行的一项重复研究。

E-cigarettes emit very high formaldehyde levels only in conditions that are aversive to users: A replication study under verified realistic use conditions.

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出版信息

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DESIGN

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