新烟碱类杀虫剂:监管啮齿类动物研究得出的发育神经毒性证据。

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-10-02 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1438890
Jennifer Beth Sass, Nathan Donley, William Freese
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引用次数: 0

摘要

新烟碱类是美国乃至全世界使用最广泛的一类杀虫剂。与新烟碱类杀虫剂的高使用率和持久性相一致,新烟碱类杀虫剂经常被发现污染饮用水和食物。在人体尿液、母乳、羊水和脑脊液以及经过处理的啮齿动物大脑中也能检测到它们。人们曾一度认为新烟碱类物质对人类的神经毒性风险很小,但越来越多的研究对这一假设提出了质疑。在本研究中,我们首次全面评估了新烟碱类杀虫剂生产商提交给美国环保署(EPA)的未公开的关于五种新烟碱类杀虫剂的啮齿动物发育神经毒性(DNT)研究。研究人员在雌性大鼠的妊娠期和哺乳期给它们注射了三种不同剂量的新烟碱类药物,并对其后代进行了各种神经测试和脑部测量。我们发现了类似尼古丁的效应,如大脑体积缩小,表明神经细胞丢失。在五种新烟碱类药物(啶虫脒、噻虫嗪、吡虫啉、噻虫啉和噻虫嗪)的高剂量后代中,我们观察到脑组织出现了统计学意义上的明显萎缩。在啮齿类动物研究中减少的两个脑区--胼胝体和尾状突起--在被诊断患有注意力缺陷多动障碍(ADHD)的人和母亲在怀孕期间吸烟的孩子中往往较小,这表明围产期接触新烟碱类药物与ADHD之间可能存在联系。据报告,啶虫脒在所有剂量下都会降低听觉惊跳反射,而且在中剂量和高剂量的后代中具有显著的统计学意义;噻虫嗪则会降低高剂量雌性幼虫的听觉惊跳反射。没有提交啶虫脒、吡虫啉或噻虫啉的中剂量或低剂量脑形态计量数据。噻虫嗪的中剂量和低剂量脑形态测量数据已应要求提供给环保局。噻虫嗪只提交了部分中剂量脑形态测量数据,但没有提交低剂量数据。然而,尽管缺乏数据,环保局仍得出结论认为,只有高剂量的脑形态测量效应与治疗有关,并将中剂量设定为研究的无观测不良效应水平(NOAEL),或未能为啶虫脒、噻虫嗪、吡虫啉、噻虫啉和噻虫嗪找到明确的无观测不良效应水平。我们发现环保局在监管监督和数据分析方面存在许多缺陷。环保局忽视了在统计上具有重大意义的不利影响,在缺乏有效的阳性对照数据的情况下接受了不达标的 DNT 研究,并允许新烟碱注册商对该机构的决策施加不当影响。我们的结论是,在啮齿动物生物测定中,围产期接触新烟碱类化合物及其代谢物会诱发类似尼古丁的不良神经毒性效应,而美国环保局为人类接触新烟碱类化合物设定的接触限值要么不具有保护作用,要么没有得到现有神经毒性数据的支持。我们建议修改法规,授权环保局更好地保护公众健康免受新烟碱类等发育神经毒素的危害。
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Neonicotinoid pesticides: evidence of developmental neurotoxicity from regulatory rodent studies.

Neonicotinoids are the most widely used class of insecticides in the United States (U.S.). and the world. Consistent with their high use and persistence, neonicotinoids are often found contaminating drinking water and food. They are also detected in human urine, breast milk, amniotic and cerebrospinal fluids, as well as the brains of treated rodents. Neonicotinoids were once thought to pose little neurotoxic risk to humans, but a growing body of research challenges that assumption. In this study we provide the first comprehensive assessment of unpublished rodent developmental neurotoxicity (DNT) studies on five neonicotinoids that were submitted to the U.S. Environmental Protection Agency (EPA) by neonicotinoid manufacturers. Groups of female rats were administered three different doses of a neonicotinoid during pregnancy and lactation, and their offspring subjected to various neurological tests and brain measurements. We identified nicotine-like effects such as reduced brain size, indicative of neuronal cell loss. Statistically significant shrinkage of brain tissue was observed in high-dose offspring for five neonicotinoids: acetamiprid, clothianidin, imidacloprid, thiacloprid, and thiamethoxam. Two brain regions reduced in the rodent studies-the corpus callosum and caudate-putamen-tend to be smaller in people diagnosed with attention-deficit hyperactivity disorder (ADHD), and in children of mothers who smoked during pregnancy, suggesting a possible link between perinatal neonicotinoid exposure and ADHD. A decreased auditory startle reflex was reported for acetamiprid at all doses and was statistically significant in the mid- and high-dose offspring, and for clothianidin in juvenile high-dose females. No mid- or low-dose brain morphometric data were submitted for acetamiprid, imidacloprid, or thiacloprid. Thiamethoxam mid- and low-dose brain morphometric data were provided to EPA upon request. Only partial mid-dose brain morphometry data were submitted for clothianidin, but no low-dose data. Yet despite this lack of data, EPA concluded that only the high-dose brain morphometric effects were treatment-related-setting the mid-dose as the study's No Observed Adverse Effect Level (NOAEL) or failing to find a definitive NOAEL for acetamiprid, clothianidin, imidacloprid, thiacloprid and thiamethoxam. We found numerous deficiencies in EPA's regulatory oversight and data analyses. EPA dismissed statistically significant adverse effects, accepted substandard DNT studies despite lack of valid positive control data, and allowed neonicotinoid registrants to unduly influence agency decision-making. We conclude that perinatal exposure to neonicotinoids and their metabolites induces adverse, nicotine-like neurotoxic effects in rodent bioassays, and that the exposure limits set by EPA for human exposure are either not protective or not supported by available neurotoxicity data. We propose regulatory changes to empower EPA to better protect public health from developmental neurotoxins like neonicotinoids.

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