Yale University School of Medicine, Department of Psychiatry, New Haven, CT, United States; VA Connecticut Healthcare System, West Haven, CT, United States.
Yale University School of Medicine, Department of Laboratory Medicine, New Haven, CT, United States.
Drug Alcohol Depend. 2016 Feb 1;159:272-6. doi: 10.1016/j.drugalcdep.2015.12.011. Epub 2015 Dec 24.
The liquids (e-liquids) used in an electronic cigarette (e-cigarette) contain myriad chemicals without adequate human inhalation safety data. Furthermore, the absence of e-liquid labeling requirements poses a formidable challenge to understanding how e-liquid constituents may promote nicotine addiction and/or have independent or synergistic biological effects when combined with nicotine. Ethyl alcohol is such a constituent, but has received little scientific interest in this context.
Using a randomized, double blind, crossover design, acute changes in subjective drug effects, motor performance and biochemical measures of alcohol and nicotine intake were evaluated after directed and ad lib puffing from two commercially available e-liquids containing nicotine (8 mg/ml), vanilla flavor and either 23.5% (high) or 0.4% (trace) alcohol.
While no differences in subjective drug effects were observed between alcohol conditions, performance on the Purdue Pegboard Dexterity Test (PPDT) improved under the trace, but not under the 23.5% alcohol condition. Although plasma alcohol levels remained undetectable during testing, urine ethyl glucuronide (EtG), an alcohol metabolite, became measurable in three participants after puffing from the 23.5% alcohol e-cigarette.
Brief use of a widely available type of e-cigarette containing an e-liquid purchased from an internet vendor can negatively impact psychomotor performance and in some instances, produce detectable levels of a urine alcohol metabolite. Given the widespread and unregulated use of e-cigarettes, especially by youth and other vulnerable populations, further studies are needed to evaluate both the acute safety and long-term health risks of using alcohol-containing e-cigarettes.
电子烟中使用的液体(电子液体)含有无数的化学物质,而人类对这些物质的吸入安全性数据却不足。此外,由于缺乏电子液体标签要求,人们很难了解电子液体成分如何促进尼古丁成瘾,或者当与尼古丁结合时,它们可能具有独立或协同的生物学效应。乙醇就是这样一种成分,但在这种情况下,它并没有引起太多的科学关注。
采用随机、双盲、交叉设计,评估了在吸食两种市售含尼古丁(8mg/ml)、香草味且分别含有 23.5%(高)或 0.4%(痕量)乙醇的电子烟后,定向和随意吸食对主观药物效应、运动表现和酒精与尼古丁摄入的生化测量的急性变化。
虽然在酒精条件下观察到的主观药物效应没有差异,但在痕量酒精条件下,而不是在 23.5%酒精条件下,普渡钉板灵巧测验(PPDT)的表现有所改善。尽管在测试过程中血液中的酒精水平仍无法检测到,但在吸食 23.5%酒精电子烟后,有三名参与者的尿液中出现了酒精代谢物乙基葡萄糖醛酸(EtG)。
使用一种广泛使用的、从互联网供应商处购买的含有电子烟液体的电子烟,即使使用时间很短,也会对精神运动表现产生负面影响,并且在某些情况下,还会产生可检测到的尿液酒精代谢物水平。鉴于电子烟的广泛和不受管制的使用,尤其是在青少年和其他弱势群体中,需要进一步研究评估使用含酒精电子烟的急性安全性和长期健康风险。