铅对铅冶炼工人内分泌系统的影响

E. Erfurth, L. Gerhardsson, A. Nilsson, L. Rylander, A. Schütz, S. Skerfving, J. Börjesson
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引用次数: 68

摘要

摘要本研究以77名二次炼铅工人(62名在职工人和15名退休工人)为研究对象,比较了铅对内分泌系统的影响。用电感耦合等离子体质谱法测定血浆中的铅浓度(即近期接触指数),用原子吸收分光光度法测定血液中的铅浓度,用K - x射线荧光技术测定指骨中的铅浓度(即长期接触指数)。用荧光免疫法测定血清垂体激素,用放射免疫法测定血清甲状腺激素和睾酮。采用促性腺激素释放激素和甲状腺激素释放激素对9名带队工人和11名参照者进行刺激,随后测定血清中垂体激素水平。活跃铅工血浆中铅的中位数为0.14 μg/dl(范围为0.04 ~ 3.7 μg/dl),退休铅工血浆中铅的中位数为0.08 μg/dl(范围为0.05 ~ 0.4 μg/dl),参照物血浆中铅的中位数为0.03 μg/dl(范围为0.02 ~ 0.04 μg/dl) (1 μg/dl = 48.3 nmol/l)。相应的血铅浓度分别为33.2 μg/dl (8.3 ~ 93.2 μg/dl)、18.6 μg/dl (10.4 ~ 49.7 μg/dl)和4.1 μg/dl (0.8 ~ 6.2 μg/dl)。骨铅水平分别为21 μg/gm (-13 ~ 99 μg/gm)、55 μg/gm (3 ~ 88 μg/gm)和2 μg/gm (-21 ~ 14 μg/gm)。基础血清激素(即游离甲状腺激素、促甲状腺素、性激素结合球蛋白和睾酮)浓度在3组中相似。这里提到的激素与血浆、血铅和骨铅水平之间没有明显的联系。在激发试验中,受刺激的促卵泡激素水平在铅工人显著低于对照(p = 0.014),表明铅在垂体水平的影响。此外,铅工人有较低的基底刺激卵泡刺激素浓度的趋势(p = .08)。然而,这种效果与血浆水平、血铅水平或骨铅水平无关。总之,中度铅暴露只与男性内分泌功能的微小变化有关,特别是影响下丘脑-垂体轴。鉴于没有研究精子参数,作者无法得出关于生育后果的结论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Lead on the Endocrine System in Lead Smelter Workers
Abstract In this study of the effects of lead on the endocrine system, 77 secondary lead-smelter workers (i.e., 62 active and 15 retired) were compared with 26 referents. Lead concentrations were determined in plasma with inductively coupled plasma mass spectrometry (i.e., index of recent exposure), in blood with atomic absorption spectrophotometry and in fingerbone with K x-ray fluorescence technique (i.e., index of long-term exposure). In addition, pituitary hormones were determined in serum by fluoroimmunoassay and thyroid hormones and testosterone in serum were determined with radioimmunoassay. Nine lead workers and 11 referents were challenged with gonadotrophin-releasing hormone and thyrotrophin-releasing hormone, followed by measurements of stimulated pituitary hormone levels in serum. Median levels of lead in plasma were 0.14 μg/dl (range = 0.04–3.7 μg/dl) in active lead workers, 0.08 μg/dl (range = 0.05–0.4 μg/dl) in retired lead workers and 0.03 μg/dl (range = 0.02–0.04 μg/dl) in referents (1 μg/dl = 48.3 nmol/l). Corresponding blood lead concentrations were 33.2 μg/dl (range = 8.3–93.2 μg/dl), 18.6 μg/dl (range = 10.4–49.7 μg/dl) and 4.1 μg/dl (range 0.8–6.2 μg/dl), respectively. Respective bone lead levels were 21 μg/gm (range = -13 to 99 μg/gm), 55 μg/gm (range = 3–88 μg/gm) and 2 μg/gm (range = -21 to 14 μg/gm). Concentrations of basal serum hormone (i.e., free thyroid hormones, thyrotrophin, sex hormone binding globulin and testosterone) were similar in the 3 groups. There were no significant associations between the hormones mentioned herein and blood plasma, blood lead and bone lead levels. In the challenge test, stimulated follicle-stimulating hormone levels were significantly lower in lead workers (p = .014) than in referents, indicating an effect of lead at the pituitary level. Also, there was a tendency toward lower basal stimulated follicle-stimulating hormone concentrations in lead workers (p = .08). This effect, however, was not associated with blood plasma level, blood lead level, or bone lead level. In conclusion, a moderate exposure to lead was associated with only minor changes in the male endocrine function, particularly affecting the hypothalamic-pituitary axis. Given that sperm parameters were not studied, the authors could not draw conclusions about fertility consequences.
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