急性体内柴油和生物柴油废气对小鼠模型呼吸系统健康的影响。
The respiratory health effects of acute in vivo diesel and biodiesel exhaust in a mouse model.
机构信息
Occupation, Environment and Safety, School of Population Health, Curtin University, P.O. Box U1987, Perth, WA, 6845, Australia; Respiratory Environmental Health, Wal-yan Respiratory Research Centre, Telethon Kids Institute, Perth Children's Hospital, Nedlands, Perth, WA, 6009, Australia.
Occupation, Environment and Safety, School of Population Health, Curtin University, P.O. Box U1987, Perth, WA, 6845, Australia.
出版信息
Chemosphere. 2024 Aug;362:142621. doi: 10.1016/j.chemosphere.2024.142621. Epub 2024 Jun 14.
BACKGROUND
Biodiesel, a renewable diesel fuel that can be created from almost any natural fat or oil, is promoted as a greener and healthier alternative to commercial mineral diesel without the supporting experimental data to back these claims. The aim of this research was to assess the health effects of acute exposure to two types of biodiesel exhaust, or mineral diesel exhaust or air as a control in mice. Male BALB/c mice were exposed for 2-hrs to diluted exhaust obtained from a diesel engine running on mineral diesel, Tallow biodiesel or Canola biodiesel. A room air exposure group was used as a control. Twenty-four hours after exposure, a variety of respiratory related end point measurements were assessed, including lung function, responsiveness to methacholine and airway and systemic immune responses.
RESULTS
Tallow biodiesel exhaust exposure resulted in the greatest number of significant effects compared to Air controls, including increased airway hyperresponsiveness (178.1 ± 31.3% increase from saline for Tallow biodiesel exhaust exposed mice compared to 155.8 ± 19.1 for Air control), increased airway inflammation (63463 ± 13497 cells/mL in the bronchoalveolar lavage of Tallow biodiesel exhaust exposed mice compared to 40561 ± 11800 for Air exposed controls) and indications of immune dysregulation. In contrast, exposure to Canola biodiesel exhaust resulted in fewer significant effects compared to Air controls with a slight increase in airway resistance at functional residual capacity and indications of immune dysregulation. Exposure to mineral diesel exhaust resulted in significant effects between that of the two biodiesels with increased airway hyperresponsiveness and indications of immune dysregulation.
CONCLUSION
These data show that a single, brief exposure to biodiesel exhaust can result in negative health impacts in a mouse model, and that the biological effects of exposure change depending on the feedstock used to make the biodiesel.
背景
生物柴油是一种可再生的柴油燃料,可以由几乎任何天然脂肪或油制成,被宣传为比商业矿物柴油更环保、更健康的替代品,而没有支持这些说法的实验数据。本研究旨在评估两种类型的生物柴油废气、矿物柴油废气或空气暴露对小鼠的急性影响,并评估其健康效应。雄性 BALB/c 小鼠暴露于矿物柴油、牛脂生物柴油或油菜籽生物柴油发动机运行产生的稀释废气中 2 小时。空气暴露组作为对照。暴露 24 小时后,评估了多种与呼吸相关的终点测量,包括肺功能、对乙酰甲胆碱的反应性以及气道和全身免疫反应。
结果
与空气对照相比,牛脂生物柴油废气暴露导致了最多的显著影响,包括气道高反应性增加(与生理盐水相比,牛脂生物柴油废气暴露的小鼠增加了 178.1±31.3%,而空气对照为 155.8±19.1%)、气道炎症增加(牛脂生物柴油废气暴露的小鼠支气管肺泡灌洗液中细胞数为 63463±13497 个/mL,而空气暴露的对照为 40561±11800 个/mL)和免疫失调迹象。相比之下,与空气对照相比,油菜籽生物柴油废气暴露导致的显著影响较少,仅在功能残气量时气道阻力略有增加,并出现免疫失调迹象。矿物柴油废气暴露导致的显著影响介于两者之间,表现为气道高反应性和免疫失调迹象。
结论
这些数据表明,单次短暂暴露于生物柴油废气可导致小鼠模型产生负面健康影响,并且暴露的生物学效应因用于制造生物柴油的原料而异。
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