Urinary biomarkers of exposure to toxic and essential elements: A comparison of infants fed with human milk or formula

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Talia D. Pikounis, Kassaundra L. Amann, B. P. Jackson, T. Punshon, D. Gilbert-Diamond, S. Korrick, M. R. Karagas, K. L. Cottingham
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Abstract

Background: Early-life exposure to nonessential (toxic) and essential trace elements can influence child development. Although infant formula powders and the water used to reconstitute them can contain higher concentrations of many elements compared with human milk, the influence of feeding mode on reliable biomarkers of infant exposure has rarely been demonstrated. Methods: We evaluated associations between urinary biomarkers and feeding mode (exclusively human milk, exclusively formula, or combination-fed) for four toxic (arsenic, cadmium, nickel, and uranium) and three essential elements (cobalt, molybdenum, and selenium) using general linear models. Results: A total of 462 participants from the rural New Hampshire Birth Cohort Study were on average 6 weeks old between July 2012 and March 2019 and had urine samples, 3-day food diaries, and relevant covariate data available. In adjusted models, urinary arsenic was 5.15 (95% confidence interval = 4.04, 6.58), molybdenum was 19.02 (14.13–25.59), and selenium was 1.51 (1.35–1.68) times higher in infants fed exclusively with formula compared with infants fed exclusively with human milk. By contrast, urinary uranium was 0.59 (0.46–0.75) and cobalt was 0.78 (0.65–0.95) times lower with formula feeding than human milk feeding. Conclusion: Our findings suggest that infant exposure to several potentially toxic elements varies by feeding mode, as concentrations of reliable urinary biomarkers were higher with formula or human milk, depending on the element. Importantly, exposure to arsenic increased with household tap water arsenic regardless of feeding mode, suggesting that all infants could be at risk in populations with high concentrations of arsenic in drinking water.
暴露于有毒和必需元素的尿液生物标志物:母乳喂养和配方奶喂养婴儿的比较
背景:生命早期接触非必需(有毒)和必需微量元素会影响儿童的发育。尽管与母乳相比,婴儿配方粉和用于重组配方粉的水可能含有更高浓度的多种元素,但喂养模式对婴儿暴露的可靠生物标志物的影响却很少得到证实。研究方法我们使用一般线性模型评估了四种有毒元素(砷、镉、镍和铀)和三种必需元素(钴、钼和硒)的尿液生物标志物与喂养方式(完全母乳喂养、完全配方粉喂养或混合喂养)之间的关系。研究结果新罕布什尔州农村出生队列研究共有 462 名参与者,他们在 2012 年 7 月至 2019 年 3 月期间出生,平均年龄为 6 周岁,有尿液样本、3 天食物日记和相关协变量数据。在调整后的模型中,与纯母乳喂养的婴儿相比,纯配方奶喂养的婴儿尿砷含量高出 5.15(95% 置信区间 = 4.04,6.58)倍,钼含量高出 19.02(14.13-25.59)倍,硒含量高出 1.51(1.35-1.68)倍。相比之下,配方奶喂养的婴儿尿中铀的含量为 0.59(0.46-0.75)倍,钴的含量为 0.78(0.65-0.95)倍。结论我们的研究结果表明,婴儿暴露于几种潜在有毒元素的情况因喂养方式而异,因为可靠的尿液生物标志物的浓度因元素而异,配方奶或人奶的浓度更高。重要的是,无论采用哪种喂养方式,砷的暴露量都会随着家庭自来水砷含量的增加而增加,这表明在饮用水中砷浓度较高的人群中,所有婴儿都可能面临风险。
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
Environmental Epidemiology
Environmental Epidemiology Medicine-Public Health, Environmental and Occupational Health
CiteScore
5.70
自引率
2.80%
发文量
71
审稿时长
25 weeks
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