School of Public Health and Management, Research Center for Medicine and Social Development, Innovation Center for Social Risk Governance in Health, Chongqing Medical University, Chongqing 400016, China.
School of Public Health and Management, Research Center for Medicine and Social Development, Innovation Center for Social Risk Governance in Health, Chongqing Medical University, Chongqing 400016, China.
Sci Total Environ. 2017 Nov 15;598:553-561. doi: 10.1016/j.scitotenv.2017.04.103. Epub 2017 Apr 25.
Since childhood exposure to polycyclic aromatic hydrocarbons (PAHs) have been associated with a variety of adverse health outcomes, the aims of this study were to1) document PAH exposure levels among children in Chongqing, China by measuring urinary concentrations of four PAH metabolites, 1-hydroxypyrene (1-OHPyr), 2-hydroxynaphthalene (2-OHNap), 2-hydroxyfluorine (2-OHFlu) and 9-hydroxyphenanthrene (9-OHPhe), and 2) assess the associations of urinary concentrations of these PAH metabolites with risk factors related to sources of PAHs inhalation and ingestion exposures and with personal attributes such as sex, age, and BMI.
The present study is a cross-sectional analysis using data drawn from the third follow up of a longitudinal study. Purposive sampling was used with all students in grades one to four in four schools being eligible to participate. The baseline survey included a total of 1237 students 5.8 to 12.2years of age. At the third follow up survey, 1.5years after the baseline survey, 1230 of the children had a physical exam and provided urine samples. Their parents completed a questionnaire including social-demographic information and possible sources of children's exposure to PAHs. Urine samples were measured for the four OH-PAHs using an HPLC-MS/MS technique. Concentrations were corrected by specific gravity. Linear regression analysis was used to investigate factors related to sources of PAHs exposure.
The urinary concentrations were highest for 9-OHPhe (median at the range of 3661ng/L), followed by 2-OHNap (3189ng/L), 2-OHFlu (1116ng/L), and 1-OHPyr (250ng/L). In multiple linear regressions, being female (P=0.04), school location near a thermal power plant (P=0.02) and higher maternal age at birth (P<0.01) were associated with increased concentrations of urinary 1-OHPyr; no significant associations were found for 2-OHNap; school location near a thermal power plant (P<0.01) and lower family income (P<0.01) were associated with increased concentrations of urinary 2-OHFlu; higher age (P<0.01), school location near a thermal power plant (P=0.01), frequent consumption of smoked foods (P=0.04) and lower family income (P=0.07) were all found to be associated with increased concentrations of 9-OHPhe.
Urinary concentrations of OH-PAHs, especially 9-OHPhe, were elevated in Chongqing Children compared to children in other countries. Being female, older age, school location near an industrial site, frequent consumption of smoked foods and lower family income were all associated with higher OH-PAHs concentrations. Further cohort studies are needed to confirm the associations between potential exposure sources and children's exposure to PAHs, in order to provide recommendations to reduce exposure.
由于儿童在幼年时期接触多环芳烃(PAHs)与多种不良健康后果有关,本研究的目的是:1)通过测量尿液中 4 种 PAH 代谢物 1-羟基芘(1-OHPyr)、2-羟基萘(2-OHNap)、2-羟基芴(2-OHFlu)和 9-羟基菲(9-OHPhe)的浓度,来记录重庆儿童的 PAH 暴露水平;2)评估这些 PAH 代谢物的尿液浓度与与吸入和摄入 PAHs 源有关的风险因素以及与性别、年龄和 BMI 等个人属性的相关性。
本研究是一项横断面分析,使用来自一项纵向研究第三次随访的数据。采用目的抽样法,所有四年级的学生都有资格参加。基线调查共包括 1237 名 5.8 至 12.2 岁的学生。在第三次随访调查中,即基线调查后 1.5 年,有 1230 名儿童进行了体检并提供了尿液样本。他们的父母完成了一份问卷,包括社会人口统计学信息和儿童可能接触 PAHs 的来源。使用 HPLC-MS/MS 技术测量了这四种 OH-PAHs 的浓度。浓度通过比重进行校正。线性回归分析用于研究与 PAHs 暴露源有关的因素。
尿液中 9-OHPhe 的浓度最高(中位数范围为 3661ng/L),其次是 2-OHNap(3189ng/L)、2-OHFlu(1116ng/L)和 1-OHPyr(250ng/L)。在多元线性回归中,女性(P=0.04)、学校位于热电厂附近(P=0.02)和母亲生育时年龄较大(P<0.01)与尿液中 1-OHPyr 浓度升高有关;2-OHNap 无显著相关性;学校位于热电厂附近(P<0.01)和家庭收入较低(P<0.01)与尿液中 2-OHFlu 浓度升高有关;年龄较大(P<0.01)、学校位于热电厂附近(P=0.01)、经常食用熏制食品(P=0.04)和家庭收入较低(P=0.07)都与 9-OHPhe 浓度升高有关。
与其他国家的儿童相比,重庆儿童尿液中 OH-PAHs 的浓度,特别是 9-OHPhe,升高。女性、年龄较大、学校位于工业场所附近、经常食用熏制食品和家庭收入较低均与 OH-PAHs 浓度升高有关。需要进一步的队列研究来证实潜在暴露源与儿童接触 PAHs 之间的关联,以便为减少接触提供建议。
