Department of Chemistry, University of Malta, Msida MSD 2080, Malta; Program in Clinical Pharmacology, Division of Cardiology, Department of Medicine, University of California, San Francisco, CA 94143, United States.
Program in Clinical Pharmacology, Division of Cardiology, Department of Medicine, University of California, San Francisco, CA 94143, United States.
Environ Int. 2022 Jan;158:106992. doi: 10.1016/j.envint.2021.106992. Epub 2021 Nov 19.
The most important tobacco-specific nitrosamine found in cigarette smoke and formed in ageing smoke after cigarettes are extinguished is 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK). It is formed from nitrosation of nicotine, under particular conditions both in indoor and outdoor environments. NNK has been classified as a potent lung carcinogen which is expected to be found primarily in the particle-phase and to be stable in particulate matter. In this study tests have been carried out to show that a bisulfate-treated filter is more efficient than an untreated filter to collect both nicotine and NNK, and that the latter is stable in outdoor particulate matter. To characterize NNK in the outdoor environment, airborne samples were collected from 11 cities in USA, UK, Hong Kong and Malta with characteristics varying from low to high population densities and from urban to suburban to rural, and with desert characteristics and distinct climates. It has been shown that airborne particle + gas phase nicotine and particle-phase NNK behave in a linearly correlated manner. A seasonal analysis was carried out on a subset of data available from five sites in California, where the load of NNK in PM is driven by long range transport of the air masses passing over densely populated cities. In the winter season, the load of NNK in PM is higher than in summer in a statistically significant manner. The contamination of PM with NNK shows variability, but is observed at all sites. This paper highlights the potential risk of chronic exposure to NNK in particulate matter by the inhalation pathway.
在香烟烟雾中发现的最重要的烟草特异性亚硝胺,以及香烟熄灭后在老化烟雾中形成的亚硝胺,是 4-(甲基亚硝氨基)-1-(3-吡啶基)-1-丁酮(NNK)。它是由尼古丁的亚硝化作用形成的,在室内和室外环境中都有特定的条件。NNK 已被归类为一种强效的肺致癌物,预计主要存在于颗粒相中,并且在颗粒物中稳定。在这项研究中,进行了测试以表明,经过亚硫酸氢盐处理的过滤器比未经处理的过滤器更有效地收集尼古丁和 NNK,并且后者在户外颗粒物中稳定。为了表征户外环境中的 NNK,从美国、英国、香港和马耳他的 11 个城市收集了空气样本,这些城市的人口密度从低到高,从城市到郊区到农村,具有沙漠特征和不同的气候。已经表明,空气中的颗粒+气相尼古丁和颗粒相 NNK 呈线性相关。对来自加利福尼亚州五个地点的部分数据进行了季节性分析,其中 PM 中 NNK 的负荷由经过人口稠密城市的空气团的长距离输送驱动。在冬季,PM 中 NNK 的负荷比夏季显著更高。PM 中 NNK 的污染具有可变性,但在所有地点都有观察到。本文强调了通过吸入途径接触颗粒物中 NNK 的慢性暴露的潜在风险。