道路隧道建设工人的细胞遗传学生物监测：口腔微核细胞分析法

Villarini M, Guerrera E, Vannini S, Dominici L, Gianfredi V, Fatigoni C, Acito M, Moretti M

Department of Pharmaceutical Sciences (Unit of Public Health), University of Perugia, Italy.

Technical Advisory Department for Risk Assessment and Prevention (CONTARP), Italian Workers' Compensation Authority (INAIL), Perugia, Italy.

Ann Ig. 2021 Jul-Aug;33(4):307-321. doi: 10.7416/ai.2020.2397. Epub 2020 Dec 4.

RESULTS

Road tunnel construction workers revealed higher frequencies of cells with genotoxic damage (i.e., MN and NBUD). MN and NBUD resulted to be Poisson distributed and counts of these genotoxicity biomarkers were then analysed by Poisson regression. The frequency ratio (FR) for MN was 1.31 (95% CI: 0.84-2.04), with an increase in the exposed subjects; this finding, though indicating a higher genotoxic risk in the exposed subjects, did not reach statistical significance. On the other hand, the FR for NBUD was 3.49 (95% CI: 1.86-6.56), with a statistically significant increased risk of chromosomal damage. Even the frequencies of binucleated cells (a marker of cell proliferation) and pyknotic cells (a cell death biomarker) were significantly higher in tunnel workers.

INTRODUCTION

Tunnel construction workers are exposed to complex mixtures of toxic agents, some of which are known to be genotoxic. The aim of this study was to evaluate the genotoxic risk in this occupational setting by comparing tunnel workers with a control group for frequencies of nuclear aberrations in oral exfoliated cells.

METHODS

To evaluate the genotoxic effects of tunnel air pollutants, we conducted a cross-sectional, molecular epidemiological study (35 tunnel workers and 35 healthy controls) using the buccal micronucleus cytome assay. A questionnaire was administered to obtain information about demographic variables, lifestyle, dietary habits, anthropometric data, and occupational history. Buccal mucosa cells were collected by scraping the buccal mucosa with a small-headed toothbrush. Coded slides were examined blind by trained scorers for micronuclei (MN), nuclear buds (NBUD), and other nuclear abnormalities.

CONCLUSIONS

Our observations provide further knowledge and understanding of the occupational hazards of tunnel workers and confirm the complexity of effects (cytotoxic and genotoxic) probably induced by fumes and dust produced in underground operations.

结果

道路隧道建设工人出现具有遗传毒性损伤的细胞（即微核和核芽）的频率更高。微核和核芽呈泊松分布，然后通过泊松回归分析这些遗传毒性生物标志物的计数。微核的频率比（FR）为1.31（95%置信区间：0.84 - 2.04），暴露组有所增加；这一发现虽然表明暴露组的遗传毒性风险更高，但未达到统计学显著性。另一方面，核芽的频率比为3.49（95%置信区间：1.86 - 6.56），染色体损伤风险有统计学显著性增加。隧道工人中双核细胞（细胞增殖标志物）和固缩细胞（细胞死亡生物标志物）的频率也显著更高。

引言

隧道建设工人接触多种有毒物质的复杂混合物，其中一些已知具有遗传毒性。本研究的目的是通过比较隧道工人与对照组口腔脱落细胞中核畸变频率，评估这种职业环境中的遗传毒性风险。

方法

为评估隧道空气污染物的遗传毒性作用，我们采用颊黏膜微核细胞分析法进行了一项横断面分子流行病学研究（35名隧道工人和35名健康对照）。通过问卷调查获取有关人口统计学变量、生活方式、饮食习惯、人体测量数据和职业史的信息。用小头牙刷刮取颊黏膜收集颊黏膜细胞。由经过培训的评分员对编码玻片进行盲法检查，以检测微核（MN）、核芽（NBUD）和其他核异常情况。

结论

我们的观察结果为进一步了解隧道工人的职业危害提供了知识，并证实了地下作业产生的烟雾和粉尘可能引起的效应（细胞毒性和遗传毒性）的复杂性。

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INTRODUCTION

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引言

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