Increasing coil temperature of a third-generation e-cigarette device modulates C57BL/6 mouse lung immune cell composition and cytokine milieu independently of aerosol dose.

IF 2.3 4区 医学 Q3 ENVIRONMENTAL SCIENCES
Morgan E Poindexter, Yichen Li, Amy K Madl, Tran B Nguyen, Kent E Pinkerton
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引用次数: 0

Abstract

Higher coil temperature in e-cigarette devices increases the formation of aerosols and toxicants, such as carbonyls. At present, the health implications of vaping at higher temperatures, including exacerbation of pulmonary inflammation, are largely unknown when aerosol dose is considered. To isolate the pulmonary effects of coil temperature, C57BL/6 mice were exposed to e-cigarette aerosols generated at lower (190°C) or higher (250°C) temperature for 3 days, while maintaining a similar chamber aerosol concentration. Increasing coil temperature did not markedly alter aerosol mass-normalized emissions of select carbonyls formed from thermal degradation pathways including formaldehyde, acetaldehyde, propionaldehyde, and acetone under the tested environment. Total bronchoalveolar cells, primarily macrophages, were significantly decreased in mice exposed to aerosols generated with higher coil temperatures compared to lower temperature exposures. The gene expression of IFNβ, IL-1β, TNFα, and IL-10 in mouse lung tissue was significantly reduced following e-cigarette exposure under both conditions, compared to filtered air exposure. Higher temperature exposures further exacerbated downregulation of IFNβ and IL-1β. Data suggest that higher temperature vaping might modulate acute pulmonary immune responses, potentially inducing immune suppression, even when normalized for aerosol dose exposure. Coil temperature thus appears to be an important parameter that needs to be regulated to ensure harm reduction for e-cigarette users.

提高第三代电子烟装置的线圈温度可调节 C57BL/6 小鼠肺部免疫细胞的组成和细胞因子环境,而与气溶胶剂量无关。
电子烟设备的线圈温度越高,形成的气溶胶和有毒物质(如羰基)就越多。目前,考虑到气溶胶剂量,在较高温度下吸烟对健康的影响,包括肺部炎症的加剧,在很大程度上还是未知数。为了分离线圈温度对肺部的影响,将C57BL/6小鼠暴露在较低温度(190°C)或较高温度(250°C)下产生的电子烟气溶胶中3天,同时保持类似的烟室气溶胶浓度。在测试环境下,线圈温度的升高并未明显改变气溶胶质量归一化的热降解途径形成的特定羰基释放量,包括甲醛、乙醛、丙醛和丙酮。与暴露在较低温度下的小鼠相比,暴露在较高线圈温度下产生的气溶胶中的小鼠支气管肺泡细胞总数(主要是巨噬细胞)明显减少。与暴露于过滤空气相比,在这两种条件下暴露于电子烟后,小鼠肺组织中 IFNβ、IL-1β、TNFα 和 IL-10 的基因表达均显著降低。较高温度的暴露进一步加剧了IFNβ和IL-1β的下调。数据表明,即使对气溶胶剂量暴露进行了归一化处理,较高温度下的吸烟也可能会调节急性肺部免疫反应,从而可能诱发免疫抑制。因此,线圈温度似乎是一个重要参数,需要加以调节,以确保减少电子烟使用者的伤害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.20
自引率
19.20%
发文量
46
审稿时长
8-16 weeks
期刊介绍: The Journal of Toxicology and Environmental Health, Part A , Current Issues is an authoritative journal that features strictly refereed original research in the field of environmental sciences, public and occupational health, and toxicology.
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