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. 2008 Aug;13(5):467-77.
doi: 10.1080/13547500802099574.

CrVI exposure and biomarkers: Cr in erythrocytes in relation to exposure and polymorphisms of genes encoding anion transport proteins

Qingshan Qu  1 Xiaomei LiFeiyun AnGuang JiaLanzeng LiuHiroko Watanabe-MeserveKaren KoenigBeverly CohenMax CostaNirmal RoyMianhua ZhongLung Chi ChenSuhua LiuLei Yan
Affiliations

CrVI exposure and biomarkers: Cr in erythrocytes in relation to exposure and polymorphisms of genes encoding anion transport proteins

Qingshan Qu et al. Biomarkers. 2008 Aug.

Erratum in

  • Biomarkers. 2008 Aug;13(5):557

Abstract

A total of 195 subjects, including 141 exposed workers and 54 farmers, were recruited in China to evaluate the usefulness of chromium (Cr) in erythrocytes as a biomarker of exposure to CrVI. The levels of Cr in red blood cells (RBC) were remarkably elevated even in a group of workers routinely exposed to CrVI as low as 5-15 microg m(-3) and showed a significant exposure-response trend over the exposure range from 0.002 to 1152 microg m(-3) (p <0.0001). Multiple linear regression analyses indicated that age and cigarette smoke were not associated with Cr in RBC. However, female subjects had lower Cr in RBC compared with their male counterparts for about the same exposure levels (p <0.05). The genotypes of band III, which encodes for anion transport protein and may regulate CrO4(-2) across cell membranes, were also identified and included for analysis. The ratios of Cr in RBC to CrVI exposure were higher in subjects with a wild genotype than in those who had heterozygous or homozygous variant alleles. However, the difference was not statistically significant probably due to the limited number of participating subjects. In addition, 15 of the 141 workers were selected for multiple exposure monitoring and blood sample collections to evaluate the inter- and intraindividual variations of Cr in RBC. Compared with the personal exposure levels, Cr in RBC had small intraindividual variations with a reliability coefficient of 0.88. The study suggests that Cr in RBC may serve as a sensitive and reliable biomarker for long-term exposure to CrVI.

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Figures

Figure 1
Figure 1
Relationship between CrVI exposure and the levels of Cr in red blood cells (RBC) (geometric mean and SD). The number shown in the columns represents the subject number in corresponding subgroup. *Compared with farmers, p<0.0001; **exposure–response trend test, p<0.0001.
Figure 2
Figure 2
Effects of band III polymorphism on Cr levels in red blood cells (RBC) (μg l−1 per μg m−3 of CrVI exposure). The number shown in the columns represents the subject number in corresponding subgroup.
See this image and copyright information in PMC

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