Studies of Polycyclic Aromatic Hydrocarbons in Cigarette Mainstream Smoke: Identification, Tobacco Precursors, Control of Levels: A Review

A. Rodgman
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引用次数: 30

Abstract

Abstract During the period of tobacco smoke research from the early 1950s to the mid-1960s it was repeatedly asserted that a) tobacco and many tobacco components were involved in the pyrogenesis of polycyclic aromatic hydrocarbons (PAHs), several of which were reported to initiate tumors on the skin of laboratory animals and b) tobacco additives (flavorants, casing materials, humectants) were highly likely to be similarly involved in PAH pyrogenesis. Extensive knowledge on PAHs was deemed highly necessary because of their claimed importance in the smoking-health issue. The numerous assertions about the generation of PAHs in cigarette mainstream smoke (MSS) triggered extensive and intensive research both within and outside the Tobacco Industry to define the nature of the PAHs, their per cigarette MSS delivery amounts, their precursors, etc. It was not until 1960 that VAN DUUREN et al. (1) reported three specific aza-arenes in cigarette MSS that were asserted to be involved in smokers’ respiratory tract cancer. As noted in a recent Letter to the Editors (2), the presence of these three aza-arenes in tobacco smoke has never been confirmed. Between 1960 and 1965, other MSS components (phenols as promoters, polonium-210, N-nitrosamines, ciliastatic compounds) were asserted to be responsible for smoking related diseases. However, no major assertions were made that phenols, polonium-210, or the N-nitrosamines were derived from flavorants, casing materials, or humectants. Some investigators did report that several ciliastats were derived from added sugars and glycerol. The ciliastat proposal was drastically diminished in importance by the findings in the 1960s that only a relatively small proportion of the ciliastats reached the smoker's cilia. During that time, pertinent skills and competencies in research on tobacco smoke composition, particularly the PAH fraction, have been developed. Such skills permitted the isolation in crystalline form of 14 PAHs and the quantitation of these and many other PAHs. They were also used to put in perspective the pyrogenesis of PAHs from a) specific tobacco components, b) additives, and c) processed tobaccos (reconstituted tobacco sheet [RTS], expanded tobacco). R.J. Reynolds Tobacco Company (RJRT) pioneered the use of RTS (1953) and expanded tobaccos (1969) in cigarette blends and generated much previously unpublished data on the effect of such processed tobaccos on MSS composition.
卷烟主流烟雾中多环芳烃的研究:鉴定、烟草前体、水平控制综述
在20世纪50年代初至60年代中期的烟草烟雾研究期间,人们反复断言:a)烟草和许多烟草成分参与多环芳烃(PAHs)的热生成,其中一些被报道在实验动物的皮肤上引发肿瘤;b)烟草添加剂(香料、外壳材料、湿润剂)极有可能类似地参与多环芳烃的热生成。广泛了解多环芳烃被认为是非常必要的,因为人们声称多环芳烃在吸烟健康问题中很重要。关于卷烟主流烟雾(MSS)中产生多环芳烃的众多断言引发了烟草业内外广泛而深入的研究,以确定多环芳烃的性质、每支卷烟MSS的释放量、前体等。直到1960年,VAN DUUREN等人(1)才报道了香烟MSS中三种特定的aza-芳烃,这些芳烃被认为与吸烟者的呼吸道癌症有关。正如最近的《致编辑的信》(2)中所指出的那样,烟草烟雾中这三种氮杂芳烃的存在从未得到证实。1960年至1965年间,其他MSS成分(作为启动子的酚类物质、钋-210、n -亚硝胺、纤毛化合物)被认为是导致吸烟相关疾病的原因。然而,没有人断言苯酚、钋-210或n -亚硝胺是从香料、外壳材料或湿润剂中提取出来的。一些研究人员确实报告说,一些纤西司他是由添加糖和甘油衍生的。20世纪60年代的研究发现,只有相对较小比例的纤毛剂到达吸烟者的纤毛,这大大降低了纤毛剂建议的重要性。在此期间,在研究烟草烟雾成分,特别是多环芳烃部分方面发展了相关的技能和能力。这种技术允许以晶体形式分离14种多环芳烃,并对这些多环芳烃和许多其他多环芳烃进行定量。它们还被用于透视多环芳烃的热生性:a)特定烟草成分,b)添加剂,以及c)加工烟草(重组烟草片[RTS],膨胀烟草)。雷诺兹烟草公司(RJRT)率先在香烟混合物中使用RTS(1953年)和扩大烟草(1969年),并就这种加工烟草对MSS成分的影响产生了许多以前未发表的数据。
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