使用电子烟后对细颗粒物(PM2.5)、超细颗粒物、尼古丁空气及擦拭样本进行测量。
Measuring PM2.5, Ultrafine Particles, Nicotine Air and Wipe Samples Following the Use of Electronic Cigarettes.
作者信息
Melstrom Paul, Koszowski Bartosz, Thanner Meridith Hill, Hoh Eunha, King Brian, Bunnell Rebecca, McAfee Tim
机构信息
Office on Smoking and Health (OSH), National Center for Chronic Disease Prevention and Health Promotion (NCCDPHP), Centers for Disease Control and Prevention (CDC), Atlanta, GA.
Battelle Public Health Center for Tobacco Research, Baltimore, MD.
出版信息
Nicotine Tob Res. 2017 Sep 1;19(9):1055-1061. doi: 10.1093/ntr/ntx058.
BACKGROUND
Few studies have examined the extent of inhalation or dermal contact among bystanders following short-term, secondhand e-cigarette exposure.
OBJECTIVE
Measure PM2.5 (particles < 2.5 microns), UF (ultrafine particles < 100 nm), and nicotine in air and deposited on surfaces and clothing pre-/during/post- a short-term (2-hour) e-cigarette exposure.
METHODS
E-cigarettes were used ad libitum by three experienced users for 2 hours during two separate sessions (disposable e-cigarettes, then tank-style e-cigarettes, or "tanks") in a 1858 ft3 room. We recorded: uncorrected PM2.5 (using SidePak); UF (using P-Trak); air nicotine concentrations (using air samplers; SKC XAD-4 canisters); ambient air exchange rate (using an air capture hood). Wipe samples were taken by wiping 100 cm2 room surfaces pre- and post- both sessions, and clean cloth wipes were worn during the exposure and collected at the end.
RESULTS
Uncorrected PM2.5 and UF were higher (p < .0001) during sessions than before or after. Median PM2.5 during exposure was higher using tanks (0.515 mg/m3) than disposables (0.035 mg/m3) (p < .0001). Median UF during exposure was higher using disposables (31 200 particles/cm3) than tanks (25 200 particles/cm3)(p < .0001). Median air nicotine levels were higher (p < .05) during both sessions (disposables = 0.697 ng/L, tanks = 1.833 ng/L) than before (disposables = 0.004 ng/L, tanks = 0.010 ng/L) or after (disposables = 0.115 ng/L, tanks = 0.147 ng/L). Median accumulation rates of nicotine on surface samples were 2.1 ng/100 cm2/h using disposables and 4.0 ng/100 cm2/h using tanks; for cloth samples, it was 44.4 ng/100 cm2/h using disposables and 69.6 ng/100 cm2/h using tanks (p < .01). Mean room ventilation rate was ~5 air changes per hour during both sessions.
CONCLUSIONS
Short-term e-cigarette use can produce: elevated PM2.5; elevated UF; nicotine in the air; and accumulation of nicotine on surfaces and clothing.
IMPLICATIONS
Short-term indoor e-cigarette use produced accumulation of nicotine on surfaces and clothing, which could lead to dermal exposure to nicotine. Short-term e-cigarette use produced elevated PM2.5 and ultrafine particles, which could lead to secondhand inhalation of these particles and any chemicals associated with them by bystanders. We measured significant differences in PM2.5 and ultrafine particles between disposable e-cigarettes and tank-style e-cigarettes, suggesting a difference in the exposure profiles of e-cigarette products.
背景
很少有研究考察旁观者在短期二手电子烟暴露后吸入或皮肤接触的程度。
目的
测量短期(2小时)电子烟暴露前/期间/后空气中以及沉积在表面和衣物上的PM2.5(直径小于2.5微米的颗粒物)、超细颗粒物(直径小于100纳米)和尼古丁。
方法
三名有经验的使用者在一个1858立方英尺的房间内,分两次各自由使用电子烟2小时(一次使用一次性电子烟,另一次使用储油式电子烟,即“储油罐式”)。我们记录了:未校正的PM2.5(使用SidePak仪器);超细颗粒物(使用P-Trak仪器);空气中尼古丁浓度(使用空气采样器;SKC XAD-4罐);环境空气交换率(使用空气收集罩)。在两次使用前后,擦拭100平方厘米的房间表面获取擦拭样本,在暴露期间佩戴干净的布擦拭物并在结束时收集。
结果
使用期间未校正的PM2.5和超细颗粒物高于使用前或使用后(p < 0.0001)。使用储油罐式电子烟时暴露期间的PM2.5中位数(0.515毫克/立方米)高于一次性电子烟(0.035毫克/立方米)(p < 0.0001)。使用一次性电子烟时暴露期间的超细颗粒物中位数(31200颗粒/立方厘米)高于储油罐式电子烟(25200颗粒/立方厘米)(p < 0.0001)。两次使用期间空气中尼古丁水平中位数均高于使用前(一次性电子烟 = 0.004纳克/升,储油罐式电子烟 = 0.010纳克/升)或使用后(一次性电子烟 = 0.115纳克/升,储油罐式电子烟 = 0.147纳克/升)(p < 0.05)。一次性电子烟在表面样本上尼古丁的中位数积累率为2.1纳克/100平方厘米/小时,储油罐式电子烟为4.0纳克/100平方厘米/小时;对于布样本,一次性电子烟为44.4纳克/100平方厘米/小时,储油罐式电子烟为69.6纳克/100平方厘米/小时(p < 0.01)。两次使用期间房间平均通风率约为每小时5次换气。
结论
短期使用电子烟会导致:PM2.5升高;超细颗粒物升高;空气中有尼古丁;尼古丁在表面和衣物上积累。
启示
短期在室内使用电子烟会使尼古丁在表面和衣物上积累,这可能导致皮肤接触尼古丁。短期使用电子烟会使PM2.5和超细颗粒物升高,这可能导致旁观者二手吸入这些颗粒物以及与之相关的任何化学物质。我们测量了一次性电子烟和储油罐式电子烟之间PM2.5和超细颗粒物的显著差异,表明电子烟产品的暴露特征存在差异。
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