O-126 石墨烯纳米片生产过程中的职业暴露:通过灵敏无创的生物标记物和工作场所污染监测早期细胞遗传毒性效应的综合方法

Delia Cavallo, Anna Maria Fresegna, Aureliano Ciervo, Fabio Boccuni, Riccardo Ferrante, Francesca Tombolini, Claudio Natale, Raffaele Maiello, Marco Gentile, Roberta Andreoli, Diana Poli, Giuseppina Folesani, Stefania Sabella, Sergio Iavicoli, Cinzia Lucia Ursini
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引用次数: 0

摘要

引言 评估职业暴露于石墨烯基纳米材料的潜在健康风险需要标准化的暴露监测程序、合适的生物标记物和生物基质。方法 我们招募了一家石墨烯企业的 5 名工人(平均年龄为 39±13)和 5 名对照组工人(平均年龄为 38±12)。采用经合组织(OECD)统一方法测量工作场所和工人个人的暴露量。我们使用颊细胞微核试验(BMCyt)测定(颊细胞)来检测局部细胞遗传毒性效应,使用 fpg-comet 试验(淋巴细胞)和氧化 DNA 碱基 8-oxoGua、8-oxoGuo 和 8-oxodGuo 测量(尿液)来检测全身遗传毒性/氧化效应。结果 处理石墨烯基粉末时的粒子数浓度与背景值有显著差异(Wilcoxon 检验 p<0.05)。此外,对空气中采样材料的形态分析表明,稀有颗粒的大小和形状与生产的石墨烯基纳米材料有关。BMCyt 检测显示,暴露工人的核芽(表明基因扩增)和轻微的 MN 频率诱导以及受试者 MN 阳性(超过 MN 频率 1.5‰的固定临界值)。Fpg-comet测定显示,与对照组相比,暴露者的DNA受到直接和氧化损伤。此外,还发现暴露工人尿液中氧化 DNA 碱基略有增加。讨论 该研究证实 BMCyt 和 fpg-comet 检测法是早期(仍可修复)基因毒性和氧化效应的最灵敏的生物标志物,与暴露测量相关,是对参与石墨烯生产的工人进行生物监测的有用的非侵入性工具。结论 包括工作场所暴露特征描述和早期健康影响生物监测在内的综合方法有助于进行风险评估,也可用于对接触纳米材料的工人进行长期研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
O-126 OCCUPATIONAL EXPOSURE DURING GRAPHENE NANOFLAKES PRODUCTION PROCESS: AN INTEGRATED APPROACH TO MONITOR EARLY CYTO-GENOTOXIC EFFECTS BY SENSITIVE AND NONINVASIVE BIOMARKERS AND WORKPLACE CONTAMINATION
Introduction Standardized exposure monitoring procedures and suitable biomarkers and biological matrices are needed to evaluate the potential health risk of occupational exposure to graphene-based nanomaterials. Methods We enrolled 5 workers of a graphene start up (mean age 39±13) and 5 controls (mean age 38±12). Harmonized OECD methodology was used to measure workplace and personal worker exposure. We used Buccal Micronucleus Cytome (BMCyt) assay (buccal cells) for local cyto-genotoxic effects and fpg-comet test (lymphocytes) and oxidized DNA bases 8-oxoGua, 8-oxoGuo and 8-oxodGuo measurements (urine) for systemic genotoxic/oxidative effects. Results Particle number concentration during the graphene-based powders handling differs significantly from the background (Wilcoxon test p<0.05). Furthermore morphological analyses on airborne sampled materials showed rare particles attributable in size and shape to the produced graphene-based nanomaterials. BMCyt assay showed in exposed workers nuclear buds (indicative of genic amplification) and slight MN frequency induction and a subject MN positive (exceeding a fixed cut-off value for MN frequency 1.5‰). Fpg-comet assay showed induction of direct and oxidative DNA damage in exposed vs controls. A slight increase of urinary oxidized DNA bases in exposed workers was also found. Discussion The study confirms BMCyt and fpg-comet assays as the most sensitive biomarkers of early, still reparable, genotoxic and oxidative effects that, related to exposure measurements, represent useful non-invasive tools for the biomonitoring of workers involved in graphene production. Conclusions The integrated approach including workplace exposure characterization and biomonitoring of early health effects is useful for risk assessment and could be also used for long-term studies of workers exposed to nanomaterials.
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