新泽西州女孩的尿中真菌雌激素与初潮年龄和身高的关系。
Urinary mycoestrogens and age and height at menarche in New Jersey girls.
机构信息
Rutgers Cancer Institute of New Jersey, 195 Little Albany St., New Brunswick, NJ, 08901, USA.
Environmental and Occupational Health Sciences Institute (EOHSI), Rutgers University, 170 Frelinghuysen Rd, Piscataway, NJ, 08854, USA.
出版信息
Environ Health. 2019 Mar 22;18(1):24. doi: 10.1186/s12940-019-0464-8.
BACKGROUND
Despite evidence of the endocrine disrupting properties of zearalenone (ZEN) and alpha-zearalanol (zeranol, α-ZAL), they have been minimally studied in human populations. In previous cross-sectional analyses, we demonstrated that 9-10 years old girls with detectable urinary ZEN were of shorter stature and less likely to have reached the onset of breast development than girls with undetectable urinary ZEN. The aim of this study was to examine baseline concentrations of ZEN, (α-ZAL), and their phase-1 metabolites in relation to subsequent growth and timing of menarche using 10 years of longitudinal data.
METHODS
Urine samples were collected from participants in the Jersey Girl Study at age 9-10 (n = 163). Unconjugated ZEN, (α-ZAL), and their metabolites were analyzed using high performance liquid chromatography and tandem mass spectrometry. Information on height, weight, and pubertal development was collected at a baseline visit with annual follow-up by mail thereafter. Cox regression was used to evaluate time to menarche in relation to baseline ZEN, (α-ZAL), and total mycoestrogen exposure. Z-scores for height and weight were used in mixed models to assess growth.
RESULTS
Mycoestrogens were detectable in urine in 78.5% of the girls (median ZEN: 1.02 ng/ml, range 0-22.3). Girls with detectable urinary concentrations of (α-ZAL) and total mycoestrogens (sum of ZEN, (α-ZAL) and their metabolites) at baseline were significantly shorter at menarche than girls with levels below detection (p = 0.04). ZEN and total mycoestrogen concentrations were inversely associated with height- and weight-z-scores at menarche (adjusted β = - 0.18, 95% CI: -0.29, - 0.08, and adjusted β = - 0.10, 95% CI: -0.21, 0.01, respectively).
CONCLUSION
This study supports and extends our previous results suggesting that exposure to ZEN, (α-ZAL), and their metabolites is associated with slower growth and pubertal development in adolescent girls.
背景
尽管已有证据表明玉米赤霉烯酮(ZEN)和α-玉米赤霉醇(zeranol,α-ZAL)具有内分泌干扰特性,但它们在人类群体中的研究甚少。在之前的横断面分析中,我们发现 9-10 岁的女孩尿液中可检测到 ZEN,她们的身高较矮,且乳房发育起始的可能性低于尿液中未检测到 ZEN 的女孩。本研究旨在使用 10 年的纵向数据,检测 ZEN、(α-ZAL)及其代谢物的基线浓度与随后的生长和初潮时间的关系。
方法
从泽西海岸女孩研究中的参与者在 9-10 岁时采集尿液样本(n=163)。使用高效液相色谱和串联质谱法分析未结合的 ZEN、(α-ZAL)及其代谢物。在基线访问时收集身高、体重和青春期发育信息,此后每年通过邮件进行随访。使用 Cox 回归评估初潮时间与基线 ZEN、(α-ZAL)和总真菌雌激素暴露的关系。身高和体重的 Z 分数用于混合模型评估生长。
结果
78.5%的女孩尿液中可检测到真菌雌激素(中位数 ZEN:1.02ng/ml,范围 0-22.3)。基线时尿液中可检测到(α-ZAL)和总真菌雌激素(ZEN、(α-ZAL)及其代谢物的总和)的女孩,其初潮时的身高明显较矮(p=0.04)。ZEN 和总真菌雌激素浓度与初潮时的身高和体重 Z 分数呈负相关(调整后的β值分别为-0.18,95%CI:-0.29,-0.08 和-0.10,95%CI:-0.21,0.01)。
结论
本研究支持并扩展了我们之前的结果,表明 ZEN、(α-ZAL)及其代谢物的暴露与青春期女孩生长和青春期发育较慢有关。
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