A follow-up study on workers involved in the graphene production process after the introduction of exposure mitigation measures: evaluation of genotoxic and oxidative effects.

IF 3.6 3区 医学 Q3 NANOSCIENCE & NANOTECHNOLOGY
Delia Cavallo, Cinzia Lucia Ursini, Anna Maria Fresegna, Aureliano Ciervo, Fabio Boccuni, Riccardo Ferrante, Francesca Tombolini, Raffaele Maiello, Pieranna Chiarella, Giuliana Buresti, Valentina Del Frate, Diana Poli, Roberta Andreoli, Luisana Di Cristo, Stefania Sabella, Sergio Iavicoli
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Abstract

During nanomaterial (NM) production, workers could be exposed, particularly by inhalation, to NMs and other chemicals used in the synthesis process, so it is important to have suitable biomarkers to monitor potential toxic effects. Aim of this study was to evaluate the effectiveness of the introduction of exposure mitigation measures on workers unintentionally exposed to graphene co-pollutants during production process monitoring the presumable reduction of workplace NM contamination and of early genotoxic and oxidative effects previously found on these workers. We used Buccal Micronucleus Cytome (BMCyt) assay and Fpg-comet test, resulted the most sensitive biomarkers on our first biomonitoring work, to measure the genotoxic effects. We also detected urinary oxidized nucleic acid bases 8-oxoGua, 8-oxoGuo and 8-oxodGuo to evaluate oxidative damage. The genotoxic and oxidative effects were assessed on the same graphene workers (N = 6) previously studied, comparing the results with those found in the first biomonitoring and with the control group (N = 11). This was achieved 6 months after the installation of a special filter hood (where to perform the phases at higher risk of NM emission) and the improvement of environmental and personal protective equipment. Particle number concentration decreased after the mitigation measures. We observed reduction of Micronucleus (MN) frequency and oxidative DNA damage and increase of 8-oxodGuo excretion compared to the first biomonitoring. These results, although limited by the small subject number, showed the efficacy of adopted exposure mitigation measures and the suitability of used sensitive and noninvasive biomarkers to bio-monitor over time workers involved in graphene production process.

引入接触缓解措施后对参与石墨烯生产过程的工人进行的后续研究:基因毒性和氧化效应的评估。
在纳米材料(NM)生产过程中,工人可能暴露于纳米材料和合成过程中使用的其他化学物质,特别是通过吸入,因此有合适的生物标志物来监测潜在的毒性作用是很重要的。本研究的目的是评估在生产过程中无意暴露于石墨烯共污染物的工人引入暴露缓解措施的有效性,监测工作场所纳米污染的可能减少以及先前在这些工人身上发现的早期遗传毒性和氧化效应。我们采用口腔微核细胞组(BMCyt)测定和pg-comet试验,这是我们第一次生物监测工作中最敏感的生物标志物,用于测量遗传毒性效应。我们还检测了尿中氧化核酸碱基8-oxoGua、8-oxoGuo和8-oxodGuo来评估氧化损伤。对先前研究的相同石墨烯工人(N = 6)的遗传毒性和氧化效应进行了评估,并将结果与第一次生物监测和对照组(N = 11)的结果进行了比较。这是在安装了一个特殊的过滤罩(在那里执行NM排放风险较高的阶段)和改进环境和个人防护设备6个月后实现的。采取缓解措施后,颗粒数浓度下降。我们观察到与第一次生物监测相比,微核(MN)频率和氧化DNA损伤减少,8-oxodGuo排泄增加。这些结果虽然受到受试者数量少的限制,但显示了所采取的暴露缓解措施的有效性,以及所使用的敏感和非侵入性生物标志物对参与石墨烯生产过程的工人进行长期生物监测的适用性。
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
Nanotoxicology
Nanotoxicology 医学-毒理学
CiteScore
10.10
自引率
4.00%
发文量
45
审稿时长
3.5 months
期刊介绍: Nanotoxicology invites contributions addressing research relating to the potential for human and environmental exposure, hazard and risk associated with the use and development of nano-structured materials. In this context, the term nano-structured materials has a broad definition, including ‘materials with at least one dimension in the nanometer size range’. These nanomaterials range from nanoparticles and nanomedicines, to nano-surfaces of larger materials and composite materials. The range of nanomaterials in use and under development is extremely diverse, so this journal includes a range of materials generated for purposeful delivery into the body (food, medicines, diagnostics and prosthetics), to consumer products (e.g. paints, cosmetics, electronics and clothing), and particles designed for environmental applications (e.g. remediation). It is the nano-size range if these materials which unifies them and defines the scope of Nanotoxicology . While the term ‘toxicology’ indicates risk, the journal Nanotoxicology also aims to encompass studies that enhance safety during the production, use and disposal of nanomaterials. Well-controlled studies demonstrating a lack of exposure, hazard or risk associated with nanomaterials, or studies aiming to improve biocompatibility are welcomed and encouraged, as such studies will lead to an advancement of nanotechnology. Furthermore, many nanoparticles are developed with the intention to improve human health (e.g. antimicrobial agents), and again, such articles are encouraged. In order to promote quality, Nanotoxicology will prioritise publications that have demonstrated characterisation of the nanomaterials investigated.
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