Department of Occupational Health and Environmental Health, School of Public Health, Guangxi Medical University, Nanning 530021, China.
Hong Kong Institute of Diabetes and Obesity, The Chinese University of Hong Kong, Hong Kong, SAR 999077, China.
Sci Total Environ. 2021 Mar 15;760:143906. doi: 10.1016/j.scitotenv.2020.143906. Epub 2020 Dec 3.
Studies with multi-pollutant approach on the relationships between multiple metals and fasting plasma glucose (FPG) are limited. Few studies are available on the potential sex-specific associations between metal exposures and glucose metabolism. We explored the associations between 22 plasma metals and FPG level among the 769 participants from the manganese-exposed workers healthy cohort in China. We applied a sparse partial least squares (sPLS) regression followed by ordinary least-squares regression to evaluate multi-pollutant association. Bayesian kernel machine regression (BKMR) model was used to deal with metal mixtures and evaluate their joint effects on FPG level. In the sPLS model, negative associations on FPG levels were observed for plasma iron (belta = -0.066), cobalt (belta = -0.075), barium (belta = -0.109), and positive associations for strontium (belta = 0.082), and selenium (belta = 0.057) in men, which overlapped with the results among the overall participants. Among women, plasma copper (belta = 0.112) and antimony (belta = 0.137) were positively associated with elevated FPG level. Plasma magnesium was negatively associated with FPG level in both sexes (belta = -0.071 in men and belta = -0.144 in women). The results of overlapped for plasma magnesium was selected as the significant contributor to decreasing FPG level in the multi-pollutant, single-metal, and multi-metal models. BKMR model showed a significantly negative over-all effect of six metal mixtures (magnesium, iron, cobalt, selenium, strontium and barium) on FPG level among the overall participants from all the metals fixed at 50th percentile. In summary, our findings underline the probable role of metals in glucose homeostasis with potential sex-dependent heterogeneities, and suggest more researches are needed to explore the sex-specific associations of metal exposures with risk of diabetes.
研究多种污染物对多种金属与空腹血糖(FPG)之间关系的影响有限。关于金属暴露与葡萄糖代谢之间潜在的性别特异性关联的研究很少。我们在中国锰暴露工人健康队列的 769 名参与者中,探索了 22 种血浆金属与 FPG 水平之间的关系。我们应用稀疏偏最小二乘(sPLS)回归,然后是普通最小二乘回归,以评估多污染物的关联。贝叶斯核机器回归(BKMR)模型用于处理金属混合物,并评估它们对 FPG 水平的联合效应。在 sPLS 模型中,男性血浆铁(贝塔= -0.066)、钴(贝塔= -0.075)、钡(贝塔= -0.109)与 FPG 水平呈负相关,锶(贝塔= 0.082)和硒(贝塔= 0.057)与 FPG 水平呈正相关,这与所有参与者的结果重叠。在女性中,血浆铜(贝塔= 0.112)和锑(贝塔= 0.137)与升高的 FPG 水平呈正相关。男女血浆镁与 FPG 水平呈负相关(男性贝塔= -0.071,女性贝塔= -0.144)。在多污染物、单一金属和多金属模型中,选择重叠的血浆镁结果作为降低 FPG 水平的重要贡献者。BKMR 模型显示,在所有金属固定在第 50 百分位数的情况下,六种金属混合物(镁、铁、钴、硒、锶和钡)对所有参与者的 FPG 水平有显著的负总体效应。总之,我们的研究结果强调了金属在葡萄糖稳态中的可能作用,具有潜在的性别依赖性异质性,并表明需要进一步研究来探索金属暴露与糖尿病风险的性别特异性关联。
