[城市居民有机磷酯的内暴露特征及健康风险评价]。

Se pu = Chinese journal of chromatography Pub Date : 2025-06-01 DOI:10.3724/SP.J.1123.2025.01006

Hua-Wei Wang, Shi-Yu Shi, Ling Liu, Ding Chen, Zhi-Xian Lyu, Zi-Yi Song, You-Jie Wang, Lu-Lu Song, Su-Rong Mei

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The corresponding potential non-carcinogenic risks were calculated in combination with the non-carcinogenic risk reference dose （RfD）， with the health risks of individual OPE monomers and overall cumulative exposure expressed using the hazard quotient （HQ） and hazard index （HI）. Six OPE metabolites exhibited detection frequencies in excess of 60%， with bis（2-butoxyethyl） phosphate （BBOEP） and 1-hydroxy-2-propyl bis（1-chloro-2-propyl） phosphate （BCIPHIPP）， as the two main OPE metabolites， detected at levels of 0.56 and 0.36 ng/mL， respectively. Men exhibited higher urine contents of bis（1，3-dichloro-2-propyl） phosphate （BDCIPP）， BCIPHIPP， and BBOEP than women， whereas women exhibited higher urine contents of 4-hydroxyphenyl-phenylphosphate （4-HO-DPHP）. The levels of BCIPHIPP and diphenyl phosphate （DPHP） were found to correlate negatively with age， while the BCIPHIPP， and di-o-tolyl-phosphate （DoCP）/di-p-tolyl-phosphate （DpCP） levels correlated positively with family income. Higher exercise frequencies were found to be associated with significantly lower levels of BDCIPP and BCIPHIPP in urine. Furthermore， the frequency of nut consumption and the level of 4-HO-DPHP in urine were determined to be significantly negatively correlated. This study did not identify any significant associations between contents of urinary OPE metabolites and smoking or the intake of other foods， which suggests that smoking and dietary intake are not the primary OPE exposure pathways for the investigated population. Future research should have broader scope to elucidate the principal OPE exposure pathways. The overall OPE exposure levels for all participants in this study ranged between 5.60 and 2 800 ng/（kg⋅d） bw， with a median exposure level of 104 ng/（kg⋅d） bw. Among the four OPE monomers， Tris（2-butoxyethyl） phosphate （TBOEP） exhibited the highest exposure level， with a median value of 57.2 ng/（kg⋅d） bw （ranging between 1.11 and 1 330 ng/（kg⋅d） bw）， thereby contributing up to 55.6% of the total OPE exposure. Additionally， tri-n-butyl phosphate （TNBP） also exhibited significant exposure， with a median level of 32.4 ng/（kg⋅d） bw （ranging between 0.138 and 2 000 ng/（kg⋅d） bw）， which accounts for 31.5% of the total OPE exposure. Gender-based analysis revealed that men exhibited higher OPE exposure levels than women. Specifically， men exhibited a median exposure level of 112 ng/（kg⋅d） bw （ranging between 6.03 and 2 670 ng/（kg⋅d） bw） compared to the value of 89.9 ng/（kg⋅d） bw （ranging between 5.61 and 2 800 ng/（kg⋅d） bw） recorded for women. The vast majority of study participants exhibited HI values of less than one， indicative of no obvious non-carcinogenic risks. The OPEs exhibited HI values in the 0.000 2-1.03， with a median value of 0.06. 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引用次数: 0

摘要

采用超高效液相色谱-串联质谱法（UPLC-MS/MS）对1 869例城市居民尿液中15种有机磷酯（OPE）代谢物的含量进行了定量分析。讨论了性别、年龄、体重指数（BMI）、吸烟状况、运动频率、家庭收入和饮食摄入对人尿中OPE代谢物含量的影响。此外，根据尿液中OPE代谢物的含量来评估OPEs的日摄入量（EDI）。结合非致癌风险参考剂量（RfD）计算相应的潜在非致癌风险，使用危害商（HQ）和危害指数（HI）表示单个OPE单体和总体累积暴露的健康风险。6种OPE代谢物的检测频率超过60%，其中二（2-丁氧乙基）磷酸（BBOEP）和1-羟基-2-丙基二（1-氯-2-丙基）磷酸（BCIPHIPP）是两种主要的OPE代谢物，检测水平分别为0.56和0.36 ng/mL。男性尿中双（1,3-二氯-2-丙基）磷酸（BDCIPP）、BCIPHIPP和BBOEP含量高于女性，而女性尿中4-羟基苯基-苯基磷酸（4-HO-DPHP）含量高于女性。BCIPHIPP和磷酸二苯酯（DPHP）水平与年龄呈负相关，而BCIPHIPP和二邻甲基磷酸酯(DoCP)/二对甲基磷酸酯（DpCP）水平与家庭收入呈正相关。研究发现，较高的运动频率与尿液中BDCIPP和BCIPHIPP水平显著降低有关。此外，坚果食用频率与尿中4-HO-DPHP水平呈显著负相关。本研究未发现尿OPE代谢物含量与吸烟或其他食物摄入之间的任何显著关联，这表明吸烟和饮食摄入不是被调查人群的主要OPE暴露途径。未来的研究应在更广泛的范围内阐明主要的OPE暴露途径。本研究中所有参与者的总体OPE暴露水平在5.60至2 800 ng/(kg⋅d) bw之间，中位暴露水平为104 ng/(kg⋅d) bw。在四种OPE单体中，三（2-丁氧乙基）磷酸（TBOEP）暴露量最高，中位值为57.2 ng/(kg⋅d) bw（范围为1.11 ~ 1 330 ng/(kg⋅d) bw），占OPE总暴露量的55.6%。此外，三正丁基磷酸（TNBP）也表现出显著的暴露，中位暴露水平为32.4 ng/(kg⋅d) bw（范围在0.138 ~ 2 000 ng/(kg⋅d) bw之间），占OPE总暴露量的31.5%。基于性别的分析显示，男性的OPE暴露水平高于女性。具体而言，男性的中位暴露水平为112 ng/(kg·d) bw（范围在6.03至2 670 ng/(kg·d) bw），而女性的中位暴露水平为89.9 ng/(kg·d) bw（范围在5.61至2 800 ng/(kg·d) bw）。绝大多数研究参与者的HI值小于1，表明没有明显的非致癌风险。OPEs的HI值在0.000 ~ 1.03之间，中位数为0.06。与四种OPE单体相关的暴露风险依次为：TBOEP （HI中值=0.038，范围：0.000 7-0.883）、TNBP （HI中值=0.013，范围：0.000 05-0.833）、三磷酸（1,3-二氯-2-丙基）（TDCIPP）（HI中值=0.002，范围：0.000 8-0.288）和磷酸三苯酯（TPHP）（HI中值=0.001，范围：0.000 2-0.350）；这些单体分别占总HI值的68.9、24.4、4.2和2.5%。在所有研究参与者中，男性的暴露风险（HI中位数=0.061，范围：0.002-1.03）高于女性（HI中位数=0.049，范围：0.002-0.840）。值得注意的是，TBOEP被确定为两性的主要高危单体，分别对男性和女性的总体健康风险贡献70.1%（中位HI=0.042，范围：0.000 7-0.883）和67.6%（中位HI=0.035，范围：0.000 8-0.835）。综上所述，研究人群普遍暴露于OPEs，男性暴露水平较高，并存在相关的健康风险，这表明OPEs暴露水平与性别有关。本研究揭示了城市居民OPEs的暴露水平和特征，为后续研究和政策制定提供了数据支持和科学依据。

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[Internal exposure characteristics and health risk assessment of organophosphate esters in urban residents].

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[Internal exposure characteristics and health risk assessment of organophosphate esters in urban residents].

The contents of 15 organophosphate ester （OPE） metabolites in the urine of 1 869 adults residing in urban areas were quantified using ultra performance liquid chromatography-tandem mass spectrometry （UPLC-MS/MS）. How gender， age， body mass index （BMI）， smoking status， exercise frequency， family income and dietary intake affected the contents of OPE metabolites in human urine were discussed. Furthermore， the daily intake （EDI） of OPEs was evaluated based on the contents of OPE metabolites in urine. The corresponding potential non-carcinogenic risks were calculated in combination with the non-carcinogenic risk reference dose （RfD）， with the health risks of individual OPE monomers and overall cumulative exposure expressed using the hazard quotient （HQ） and hazard index （HI）. Six OPE metabolites exhibited detection frequencies in excess of 60%， with bis（2-butoxyethyl） phosphate （BBOEP） and 1-hydroxy-2-propyl bis（1-chloro-2-propyl） phosphate （BCIPHIPP）， as the two main OPE metabolites， detected at levels of 0.56 and 0.36 ng/mL， respectively. Men exhibited higher urine contents of bis（1，3-dichloro-2-propyl） phosphate （BDCIPP）， BCIPHIPP， and BBOEP than women， whereas women exhibited higher urine contents of 4-hydroxyphenyl-phenylphosphate （4-HO-DPHP）. The levels of BCIPHIPP and diphenyl phosphate （DPHP） were found to correlate negatively with age， while the BCIPHIPP， and di-o-tolyl-phosphate （DoCP）/di-p-tolyl-phosphate （DpCP） levels correlated positively with family income. Higher exercise frequencies were found to be associated with significantly lower levels of BDCIPP and BCIPHIPP in urine. Furthermore， the frequency of nut consumption and the level of 4-HO-DPHP in urine were determined to be significantly negatively correlated. This study did not identify any significant associations between contents of urinary OPE metabolites and smoking or the intake of other foods， which suggests that smoking and dietary intake are not the primary OPE exposure pathways for the investigated population. Future research should have broader scope to elucidate the principal OPE exposure pathways. The overall OPE exposure levels for all participants in this study ranged between 5.60 and 2 800 ng/（kg⋅d） bw， with a median exposure level of 104 ng/（kg⋅d） bw. Among the four OPE monomers， Tris（2-butoxyethyl） phosphate （TBOEP） exhibited the highest exposure level， with a median value of 57.2 ng/（kg⋅d） bw （ranging between 1.11 and 1 330 ng/（kg⋅d） bw）， thereby contributing up to 55.6% of the total OPE exposure. Additionally， tri-n-butyl phosphate （TNBP） also exhibited significant exposure， with a median level of 32.4 ng/（kg⋅d） bw （ranging between 0.138 and 2 000 ng/（kg⋅d） bw）， which accounts for 31.5% of the total OPE exposure. Gender-based analysis revealed that men exhibited higher OPE exposure levels than women. Specifically， men exhibited a median exposure level of 112 ng/（kg⋅d） bw （ranging between 6.03 and 2 670 ng/（kg⋅d） bw） compared to the value of 89.9 ng/（kg⋅d） bw （ranging between 5.61 and 2 800 ng/（kg⋅d） bw） recorded for women. The vast majority of study participants exhibited HI values of less than one， indicative of no obvious non-carcinogenic risks. The OPEs exhibited HI values in the 0.000 2-1.03， with a median value of 0.06. The exposure risks associated with the four OPE monomers are ranked in following order： TBOEP （median HI=0.038， range： 0.000 7-0.883）， TNBP （median HI=0.013， range： 0.000 05-0.833）， tris（1，3-dichloro-2-propyl） phosphate （TDCIPP）（median HI=0.002， range： 0.000 8-0.288）， and triphenyl phosphate （TPHP）（median HI=0.001， range： 0.000 2-0.350）； these monomers contribute 68.9， 24.4， 4.2， and 2.5% to the overall HI value， respectively. Among all study participants， men exhibited a higher exposure risk （median HI=0.061， range： 0.002-1.03） than women （median HI=0.049， range： 0.002-0.840）. Notably， TBOEP was identified as the primary high-risk monomer for both genders， contributing 70.1% （median HI=0.042， range： 0.000 7-0.883） and 67.6% （median HI=0.035， range： 0.000 8-0.835） to the overall health risks of men and women， respectively. In conclusion， the study population was ubiquitously exposed to OPEs， with men exhibiting higher exposure levels and associated health risks， which suggests that OPE exposure levels are gender-dependent. This study revealed the exposure levels and profiles of OPEs of urban residents， and provides supporting data and a scientific foundation for subsequent studies and policy formulations.

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Se pu = Chinese journal of chromatography

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