水烟和香烟吸入性毒物的系统评价与荟萃分析
Systematic Review and Meta-Analysis of Inhaled Toxicants from Waterpipe and Cigarette Smoking.
作者信息
Primack Brian A, Carroll Mary V, Weiss Patricia M, Shihadeh Alan L, Shensa Ariel, Farley Steven T, Fine Michael J, Eissenberg Thomas, Nayak Smita
机构信息
University of Pittsburgh School of Medicine, Pittsburgh, PA.
Squirrel Hill Health Center, Pittsburgh, PA.
出版信息
Public Health Rep. 2016 Jan-Feb;131(1):76-85. doi: 10.1177/003335491613100114.
OBJECTIVE
Waterpipe tobacco smoking (WTS) is an emerging trend worldwide. To inform public health policy and educational programming, we systematically reviewed the biomedical literature to compute the inhaled smoke volume, nicotine, tar, and carbon monoxide (CO) associated with a single WTS session and a single cigarette.
METHODS
We searched seven biomedical bibliographic databases for controlled laboratory or natural environment studies designed to mimic human tobacco consumption. Included studies quantified the mainstream smoke of a single cigarette and/or single WTS session for smoke volume, nicotine, tar, and/or CO. We conducted meta-analyses to calculate summary estimates for the inhalation of each unique substance for each mode of tobacco consumption. We assessed between-study heterogeneity using chi-squared and I-squared statistics.
RESULTS
Sufficient data from 17 studies were available to derive pooled estimates for inhalation of each exposure via each smoking method. Two researchers working independently abstracted measurement of smoke volume in liters, and nicotine, tar, and CO in milligrams. All numbers included in meta-analyses matched precisely between the two researchers (100% agreement, Cohen's k=1.00). Whereas one WTS session was associated with 74.1 liters of smoke inhalation (95% confidence interval [CI] 38.2, 110.0), one cigarette was associated with 0.6 liters of smoke (95% CI 0.5, 0.7). One WTS session was also associated with higher levels of nicotine, tar, and CO.
CONCLUSIONS
One WTS session consistently exposed users to larger smoke volumes and higher levels of tobacco toxicants compared with one cigarette. These computed estimates may be valuable to emphasize in prevention programming.
目的
水烟吸食在全球范围内呈新兴趋势。为了为公共卫生政策和教育规划提供信息,我们系统回顾了生物医学文献,以计算单次水烟吸食和单支香烟吸食所吸入的烟雾量、尼古丁、焦油和一氧化碳(CO)。
方法
我们在七个生物医学文献数据库中搜索旨在模拟人类烟草消费的对照实验室或自然环境研究。纳入的研究对单支香烟和/或单次水烟吸食的主流烟雾的烟雾量、尼古丁、焦油和/或一氧化碳进行了量化。我们进行了荟萃分析,以计算每种烟草消费方式下每种独特物质吸入量的汇总估计值。我们使用卡方和I²统计量评估研究间的异质性。
结果
有来自17项研究的充分数据可用于得出每种吸烟方式下每种暴露吸入量的汇总估计值。两名独立工作的研究人员提取了以升为单位的烟雾量以及以毫克为单位的尼古丁、焦油和一氧化碳的测量值。荟萃分析中纳入的所有数字在两名研究人员之间完全匹配(100%一致,科恩kappa系数k = 1.00)。单次水烟吸食与吸入74.1升烟雾相关(95%置信区间[CI] 38.2,110.0),而单支香烟与吸入0.6升烟雾相关(95% CI 0.5,0.7)。单次水烟吸食还与更高水平的尼古丁、焦油和一氧化碳相关。
结论
与单支香烟相比,单次水烟吸食使使用者持续暴露于更大的烟雾量和更高水平的烟草毒物中。这些计算得出的估计值在预防规划中强调可能很有价值。
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