香烟与电子烟:通过空气标志物和生物标志物对家庭中的被动暴露进行测量。
Cigarettes vs. e-cigarettes: Passive exposure at home measured by means of airborne marker and biomarkers.
作者信息
Ballbè Montse, Martínez-Sánchez Jose M, Sureda Xisca, Fu Marcela, Pérez-Ortuño Raúl, Pascual José A, Saltó Esteve, Fernández Esteve
机构信息
Tobacco Control Unit, Cancer Prevention and Control Program, Institut Català d׳Oncologia, L'Hospitalet de Llobregat, Barcelona, Spain; Catalan Network of Smoke-free Hospitals, L׳Hospitalet de Llobregat, Barcelona, Spain; Cancer Prevention and Control Group, Institut d׳Investigació Biomèdica de Bellvitge - IDIBELL, L'Hospitalet de Llobregat, Barcelona, Spain; Addictions Unit, Institute of Neurosciences, Hospital Clínic de Barcelona - IDIBAPS, Barcelona, Spain; Department of Clinical Sciences, Universitat de Barcelona, Barcelona, Spain.
Tobacco Control Unit, Cancer Prevention and Control Program, Institut Català d׳Oncologia, L'Hospitalet de Llobregat, Barcelona, Spain; Cancer Prevention and Control Group, Institut d׳Investigació Biomèdica de Bellvitge - IDIBELL, L'Hospitalet de Llobregat, Barcelona, Spain; Biostatistics Unit, Department of Basic Sciences, Universitat Internacional de Catalunya, Sant Cugat del Vallès, Barcelona, Spain.
出版信息
Environ Res. 2014 Nov;135:76-80. doi: 10.1016/j.envres.2014.09.005. Epub 2014 Sep 27.
BACKGROUND
There is scarce evidence about passive exposure to the vapour released or exhaled from electronic cigarettes (e-cigarettes) under real conditions. The aim of this study is to characterise passive exposure to nicotine from e-cigarettes' vapour and conventional cigarettes' smoke at home among non-smokers under real-use conditions.
METHODS
We conducted an observational study with 54 non-smoker volunteers from different homes: 25 living at home with conventional smokers, 5 living with nicotine e-cigarette users, and 24 from control homes (not using conventional cigarettes neither e-cigarettes). We measured airborne nicotine at home and biomarkers (cotinine in saliva and urine). We calculated geometric mean (GM) and geometric standard deviations (GSD). We also performed ANOVA and Student's t tests for the log-transformed data. We used Bonferroni-corrected t-tests to control the family error rate for multiple comparisons at 5%.
RESULTS
The GMs of airborne nicotine were 0.74 μg/m(3) (GSD=4.05) in the smokers' homes, 0.13 μg/m(3) (GSD=2.4) in the e-cigarettes users' homes, and 0.02 μg/m(3) (GSD=3.51) in the control homes. The GMs of salivary cotinine were 0.38 ng/ml (GSD=2.34) in the smokers' homes, 0.19 ng/ml (GSD=2.17) in the e-cigarettes users' homes, and 0.07 ng/ml (GSD=1.79) in the control homes. Salivary cotinine concentrations of the non-smokers exposed to e-cigarette's vapour at home (all exposed ≥ 2 h/day) were statistically significant different that those found in non-smokers exposed to second-hand smoke ≥ 2 h/day and in non-smokers from control homes.
CONCLUSIONS
The airborne markers were statistically higher in conventional cigarette homes than in e-cigarettes homes (5.7 times higher). However, concentrations of both biomarkers among non-smokers exposed to conventional cigarettes and e-cigarettes' vapour were statistically similar (only 2 and 1.4 times higher, respectively). The levels of airborne nicotine and cotinine concentrations in the homes with e-cigarette users were higher than control homes (differences statistically significant). Our results show that non-smokers passively exposed to e-cigarettes absorb nicotine.
背景
关于在实际环境中被动接触电子烟释放或呼出的蒸汽,现有证据稀少。本研究的目的是在实际使用条件下,对非吸烟者在家中被动接触电子烟蒸汽和传统香烟烟雾中的尼古丁进行特征分析。
方法
我们对来自不同家庭的54名非吸烟志愿者进行了一项观察性研究:25人与传统吸烟者同住,5人与使用尼古丁电子烟者同住,24人来自对照家庭(既不使用传统香烟也不使用电子烟)。我们测量了家中空气中的尼古丁以及生物标志物(唾液和尿液中的可替宁)。我们计算了几何平均数(GM)和几何标准差(GSD)。我们还对对数转换后的数据进行了方差分析和学生t检验。我们使用Bonferroni校正t检验来控制多重比较的家族错误率为5%。
结果
吸烟者家中空气中尼古丁的GM为0.74μg/m³(GSD = 4.05),电子烟使用者家中为0.13μg/m³(GSD = 2.4),对照家庭为0.02μg/m³(GSD = 3.51)。吸烟者家中唾液可替宁的GM为0.38ng/ml(GSD = 2.34),电子烟使用者家中为0.19ng/ml(GSD = 2.17),对照家庭为0.07ng/ml(GSD = 1.79)。在家中被动接触电子烟蒸汽的非吸烟者(所有暴露者每天暴露≥2小时)的唾液可替宁浓度与每天暴露≥2小时的被动接触二手烟的非吸烟者以及对照家庭中的非吸烟者相比,具有统计学显著差异。
结论
传统香烟家庭中的空气标志物在统计学上高于电子烟家庭(高5.7倍)。然而,被动接触传统香烟和电子烟蒸汽的非吸烟者中两种生物标志物的浓度在统计学上相似(分别仅高2倍和1.4倍)。有电子烟使用者的家庭中空气中尼古丁和可替宁浓度水平高于对照家庭(差异具有统计学显著性)。我们的结果表明,被动接触电子烟的非吸烟者会吸收尼古丁。
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