Cytotoxic and Genotoxic Effects of Electronic Cigarette Liquids on Human Mucosal Tissue Cultures of the Oropharynx.

C. Welz, M. Canis, S. Schwenk-Zieger, S. Becker, Vincent Stucke, F. Ihler, P. Baumeister
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引用次数: 34

Abstract

The popularity of electronic cigarettes (ECs) is rapidly growing and ECs are claimed to be an uncritically regarded alternative to conventional cigarettes. The mucosal tissue of the upper aerodigestive tract (UADT) is the first contact organ for xenobiotics such as liquids of ECs. The aim of this study is to investigate the bimolecular effects of e-liquids on human pharyngeal tissue cultures to evaluate whether e-liquids and their components present a risk factor for head and neck squamous cell carcinoma. Fresh tissue samples of healthy oropharyngeal mucosa were assembled into mucosal tissue cultures. Two fruit-flavored liquids (FLs), one tobacco-flavored liquid (TL) (all containing nicotine), and the corresponding base mixtures (free of nicotine and flavor) were used in three different dilutions. Cytotoxicity was assessed using the water-soluble tetrazolium-8 assay. DNA fragmentation was quantified using alkaline microgel electrophoresis. All liquids caused a significant reduction in cell viability. FLs especially showed a higher toxicity than TL. DNA fragmentation significantly increased by incubation with FL, whereas treatment with TL did not show serious DNA damage. E-liquids are cytotoxic to oropharyngeal tissue, and some liquids can induce relevant DNA damage. Thus, mutagenicity for mucosa of the UADT and e-liquids as risk factors for head and neck cancer cannot entirely be ruled out. Only the implementation of standards and regulations for liquid production and distribution can ensure a valid scientific investigation and assessment of carcinogenic potential of long-term EC use.
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电子烟液体对人口咽粘膜组织培养物的细胞毒性和基因毒性影响。
电子烟(ECs)的受欢迎程度正在迅速增长,据称电子烟是传统香烟的一种不加批判的替代品。上气消化道粘膜组织(UADT)是肠道液体等外源性药物的第一个接触器官。本研究的目的是研究电子液体对人咽组织培养物的双分子效应,以评估电子液体及其成分是否存在头颈部鳞状细胞癌的危险因素。将健康口咽粘膜的新鲜组织样本组装成粘膜组织培养物。两种水果味液体(FLs),一种烟草味液体(TL)(都含有尼古丁),以及相应的基础混合物(不含尼古丁和香料)以三种不同的稀释度使用。采用水溶性四氮唑-8测定法测定细胞毒性。用碱性微凝胶电泳定量测定DNA片段。所有液体都导致细胞活力显著降低。特别是FL的毒性高于TL,与FL孵育后DNA断裂明显增加,而与TL处理后没有出现严重的DNA损伤。电子液体对口咽组织具有细胞毒性,某些液体可诱导相关DNA损伤。因此,不能完全排除UADT粘膜的致突变性和电子液体作为头颈癌的危险因素。只有执行液体生产和销售的标准和法规,才能确保对长期使用EC的致癌潜力进行有效的科学调查和评估。
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