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Micronucleus assay for monitoring the genotoxic effects of arsenic in human populations: A systematic review of the literature and meta-analysis

Journal

MUTATION RESEARCH-REVIEWS IN MUTATION RESEARCH
Volume 780, Issue -, Pages 1-10

Publisher

ELSEVIER
DOI: 10.1016/j.mrrev.2019.02.002

Keywords

Arsenic; Genotoxicity; Micronucleus assay; Human biomonitoring; Systematic review

Funding

  1. Natural Science Foundation of China [No81774025]

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The micronucleus (MN) assay has been used to determine the potential genotoxic effects in human populations exposed to arsenic. Some of these studies found an increase in MN frequency among exposed individuals, but others found no increase or inconclusive results. Thus, the main purpose of this current study was to investigate whether MN can be used as a biomarker for the arsenic exposure, as well as whether or not the different cell types that have been used to monitor MN frequency differ in their sensitivity to upon arsenic exposure. A systematic literature review was conducted followed by a meta-analysis. The review identified 25 useful studies with data from 3232 exposed individuals (15 studies assaying lymphocytes, 16 assaying buccal cells, and 9 assaying urothelial cells), with 18 studies measuring drinking water exposure, 5 measuring occupational exposure, one measuring coal burning, and one measuring dietary exposure. The meta-analysis indicated that the overall estimates of Mean Ratio (MR, defined as the mean value of the response in the exposed group divided by the mean value of the response in the reference group) were 2.95 (95% confidence interval (CD: 2.00 to 4.35), 2.36 (95% CI: 1.77 to 3.15), and 2.82 (95% CI: 1.86 to 4.28) for MN assays conducted with lymphocytes, buccal cells, and urothelial cells in the MN assay, respectively. Subgroup analysis showed that when the exposure method was drinking water, the MN frequencies increased significantly in lymphocytes (MR = 3.59, 95% CI: 2.30 to 5.60), in buccal cells (MR = 2.35, 95% CI: 1,76 to 3,15), and in urothelial cells (MR = 3,16, 95% CI: 2,02 to 4.97). However, when the exposure method was the occupational setting or others, the MN detection using the three types of cells did not find significant differences between groups. Subgroup analysis also showed that lymphocyte MN frequencies increased significantly in both routine-culture MN assays (MR = 2.88, 95% CI: 1.15 to 7.24) and cytokinesis-block MN assays (MR = 2.89, 95% CI: 1.84 to 4.55). The performance of the MN assay with different types of cells was also compared, but no significant differences were found. Therefore, our analysis indicates that MN can be used as an effective biomarker for monitoring arsenic-exposed populations, and that MN assays conducted with lymphocytes, buccal cells, and urothelial cells do not differ in their ability to detect the genetic damage from arsenic.

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