封闭式加热烟草制品的体外毒理学比较筛选 *

Zhenyu Niu, Qi Zhang, Meng Nie, Lili Fu, Junjun Luo, Xinduo Li, Jie Zhou, Jiakai Liu, Zheng Song, Chuan Liu, Ke Zhang, Jingjing Liang, Xingtao Jiang, Zehong Wu, Bin Li, Te Xu
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引用次数: 0

摘要

摘要 加热烟草制品(HTPs)是近年来出现的一类烟草制品,其相对于卷烟的安全性和帮助吸烟者戒烟的潜力是监管机构考虑批准其上市的两个原因。商业 HTP 的设计目的是加热烟草而不是燃烧烟草以产生气溶胶,因此采用了不同的加热技术,这可能导致形成不同的气溶胶。因此,每种产品都需要单独评估。这项工作的重点是封闭式 HTP(代号为 HTP-A),该产品采用电加热,设计上允许膨化气流绕过烟草部分,从而在加热和气溶胶形成过程中降低了烟草部分的氧气浓度。为了进行初步的气溶胶化学和体外毒理学筛选,本研究将 HTP-A 与商用电加热 HTP(IQOSTM,代号为 HTP-B)和 3R4F 参考卷烟进行了对比评估。在加拿大卫生部高强度(HCI)吸烟制度下,HTP-A 气溶胶中的 9 种重点监管毒物含量有所降低,或与 HTP-B 中的单支含量相当。此外,与在 3R4F 卷烟主流烟雾中测得的含量相比,两种 HTP 的这些毒物含量均显著降低(大于 90%)。使用一套标准的体外毒理学检测方法(Ames、微核和中性红吸收),这两种 HTP 没有显示出可观察到的反应,而 3R4F 的总颗粒物则显示出明显的毒性反应。根据这些初步结果,新型封闭式 HTP-A 设计可能会提供与对比 HTP-B 类似的毒理学特征。有必要进行进一步的毒理学和临床评估,以评估 HTP-A 在减少暴露或疾病风险方面的潜力。[供稿:烟碱研究 32 (2023) 146-156].
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Comparative In Vitro Toxicological Screening of a Closed-End Heated Tobacco Product *
SUMMARY Heated tobacco products (HTPs) are a recent category of tobacco products, with their relative safety compared to cigarette smoking and potential to help smokers to quit being two reasons why regulators may consider their market approval. Designed to heat tobacco rather than to burn in order to produce aerosol, different heating techniques are applied to commercial HTPs, which may result in differing aerosol formation. Therefore, each product requires separate assessment. This work focuses on a closed-end HTP (coded as HTP-A), which is electrically heated and designed to allow puffing air flow to bypass its tobacco section, resulting in reduced oxygen concentration within the tobacco section during heating and aerosol forming. To provide a preliminary aerosol chemistry and in vitro toxicological screening, this study assessed HTP-A against a commercial electrically heated HTP (IQOSTM, coded as HTP-B) and a 3R4F reference cigarette. Under Health Canada Intense (HCI) smoking regime, the levels of 9 regulatory priority toxicants in the aerosol of HTP-A were either reduced or comparable to those in HTP-B on a per-stick basis. Additionally, both HTPs showed significant reduction (greater than 90%) in comparison to those measured in mainstream smoke of 3R4F cigarette for these toxicants. Using a set of standard in vitro toxicological assays (Ames, Micronucleus and Neutral Red Uptake), the two HTPs showed no observable responses while significant toxicity responses were recorded for 3R4F’s total particulate matter. Based on these preliminary results, the novel closed-end HTP-A design may provide similar toxicological profiles to the comparator HTP-B. Further toxicological and clinical assessments are warranted to evaluate HTP-A’s potential for exposure or disease risk reduction. [Contrib. Tob. Nicotine Res. 32 (2023) 146–156]
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