杭州市居民谷物和烧烤油炸类食品多环芳烃暴露风险评估

doi:10.19485/j.cnki.issn2096-5087.2019.03.010

预防医学

2019, Vol. 31

Issue (3): 260-264,270 DOI: 10.19485/j.cnki.issn2096-5087.2019.03.010

论著

本期目录 | 过刊浏览 | 高级检索

杭州市居民谷物和烧烤油炸类食品多环芳烃暴露风险评估

周煜¹, 沈毅², 王姝婷¹, 赵栋³

1.杭州市疾病预防控制中心健康教育所,浙江杭州 310021;
2.浙江大学公共卫生学院;
3.浙江省疾病预防控制中心

Risk assessment of polycyclic aromatic hydrocarbons exposed from cereal,fried and grilled food in Hangzhou

ZHOU Yu^*, SHEN Yi, WANG Shu-ting, ZHAO Dong

^*Department of Health Education,Hangzhou Center for Disease Control and Prevention,Hangzhou,Zhejiang,310021,China

摘要
参考文献
相关文章
Metrics

全文: PDF(559 KB)
输出: BibTeX | EndNote (RIS)

摘要目的评估杭州市居民经谷物和烧烤油炸类食品暴露于多环芳烃（PAHs）的健康风险。方法采用概率比例规模抽样方法,从杭州市2个县（市、区）抽取1 769人进行3天24小时食物消费回顾调查。在杭州市主城区采集50份烧烤油炸类食品和20份谷物及其制品,采用三重四极杆气质联用仪和高效液相荧光法同时检测样品B（a）P、PAH2、PAH4和PAH8含量,应用@risk软件构建杭州市居民经谷物和烧烤油炸类食品暴露于PAHs的概率风险评估模型,通过计算暴露限值（MOE）评价PAHs的健康风险。结果 50份烧烤油炸食品和20份谷物及制品检测出1份烧烤油炸食品B（a）P超标;PAH中位数为0.20~3.64 μg/kg。混合模型中,杭州市居民B（a）P、PAH2和PAH4在两类食品中的合计暴露量分别为1.54、3.54和8.13 ng/（kgbw·d）,非参数模型中分别为1.61、3.76和8.09 ng/（kgbw·d）。当居民在单一类食物中摄入PAHs量≤95%人群膳食暴露量,或合并两类食品摄入PAHs量≤90%人群膳食暴露量时,PAHs的MOE值均>10 000;两类食品合并暴露的混合模型中B（a）P摄入量≥97.5%人群膳食暴露量,PAH2、PAH4摄入量≥95%人群膳食暴露量,以及非参数模型中的B（a）P、PAH2、PAH4摄入量≥95%人群膳食暴露量,MOE值均<10 000。结论杭州市居民经烧烤油炸类食品和谷物暴露于PAHs的健康风险较低,单类食物摄入PAHs超过97.5%或99%,两类食物摄入超过95%的高端暴露人群存在一定健康风险。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	周煜
	沈毅
	王姝婷
	赵栋

关键词 ：多环芳烃, 风险评估, 谷物, 烧烤油炸食品

Abstract：Objective To assess the health risks of polycyclic aromatic hydrocarbons（PAHs）exposed through cereal,fried and grilled foods in Hangzhou.Methods A cross-sectional study was conducted to collect food consumption data of three inconsecutive days among 1 769 subjects selected by probability proportional to size sampling method from two districts in Hangzhou.Fifty samples of fried and grilled food and twenty samples of cereal were collected from five districts in Hangzhou. They were tested for B（a）P,PAH2,PAH4 and PAH8 by high performance liquid chromatography coupled with triple quadrupole gas chromatography-tandem mass spectrometry. The probabilistic models were established for the evaluation of PAHs exposure by @risk software and then margin of exposure（MOE）was calculated.Results The contents of B（a）P in one sample of fried and grilled food exceeded the limit. The median contents of PAHs ranged from 0.20 to 3.64 μg/kg. The median exposures of B（a）P,PAH2 and PAH4 from both two kinds of foods were 1.54,3.54 and 8.13 ng/（kgbw·d）in the mixed model,1.61,3.76 and 8.09 ng/（kgbw·d）in the non-parameter model. The MOEs of≤95% PAHs exposure level in one kind of food or ≤90% PAHs exposure level in both kinds of foods were more than 10 000. The MOEs of ≥97.5% exposure level of B（a）P,≥95% exposure levels of PAH2 and PAH4 in both kinds of foods in the mixed model,and ≥95% exposure levels of B（a）P,PAH2,PAH4 in both kinds of foods in the non-parameter model were less than 10 000.Conclusion The health risk of PAHs exposure was very low in more than 90% of the population in Hangzhou. However,for high-end consumers,97.5% or 99% exposure level in one kind of food and 95% exposure level in both kinds of foods had a potential health risk.

Key words： Polycyclic aromatic hydrocarbons Risk assessment Cereal Fried and grilled food

收稿日期: 2018-09-21 出版日期: 2019-03-04

中图分类号:

R155.5

通信作者: 周煜,E-mail：gloriazhouy@163.com

作者简介: 周煜,硕士,主管医师,主要从事营养与食品安全和健康教育工作

引用本文:

周煜, 沈毅, 王姝婷, 赵栋. 杭州市居民谷物和烧烤油炸类食品多环芳烃暴露风险评估[J]. 预防医学, 2019, 31(3): 260-264,270.
ZHOU Yu, SHEN Yi, WANG Shu-ting, ZHAO Dong. Risk assessment of polycyclic aromatic hydrocarbons exposed from cereal,fried and grilled food in Hangzhou. Preventive Medicine, 2019, 31(3): 260-264,270.

链接本文:

http://www.zjyfyxzz.com/CN/10.19485/j.cnki.issn2096-5087.2019.03.010 或 http://www.zjyfyxzz.com/CN/Y2019/V31/I3/260

[1]	曹梦思,王君,张立实,等. 食品中多环芳烃的研究现状[J].卫生研究,2015,44(1):151-157.<br />
[2]	WHO/IARC. Agents classified by the IARC monographs[EB/OL].(2018-11-09)[2018-11-22]. https://monographs.iarc.fr/list- of- classifications-volumes.<br />
[3]	IBANEZ R,AGUDO A,BERENGUER A,et al.Dietary intake of polycyclic aromatic hydrocarbon in a Spanish population[J]. Journal of Food Protection,2005,68(10):2190-2195.<br />
[4]	董峰光,王朝霞,宫春波. 食用植物油中多环芳烃的来源和处理[J]. 现代预防医学,2014,41(11):1993-1998.<br />
[5]	EFSA. Polycyclic Aromatic hydrocarbons in food scientific opinion of the panel on contaminants in the food chain[R]. EFSA,2008(724):1-114.<br />
[6]	WHO/IPCS. Selected non-heterocyclic polycyclic aromatichy- drocarbons.Environmental Health Criteria 202[S].Geneva:WHO/IPCS,1998.<br />
[7]	EU Scientific Committee on Food. Opinion of the Scientific Committee on Food on the risks to human health of polycyclic aromatic hydrocarbons in food[EB/OL].(2002-12-04)[2019-02-16].https://ec.europa.eu/food/sites/food/files/safety/docs/sci-com_scf_out 153_en.pdf.<br />
[8]	刘兆平,李凤琴,贾旭东. 食品中化学物风险评估原则和方法[M]. 北京:人民卫生出版社,2012.<br />
[9]	DE BOER W,VAN DE VOET H. MCRA,Release 5,a web- based program for Monte Carlo Risk Assessment[EB/OL]. Wageningen UR .(2004-05-06)[2018-11-22]. http://edepot.wur.nl/28277.<br />
[10]	中华人民共和国国家卫生和计划生育委员会. 食品中污染物限量:GB 2762—2017[S]. 2017.<br />
[11]	POUZOU J G,COSTARD S,ZAGMUTT F J.Probabilistic assessment of dietary exposure to heterocyclic amines and polycyclic aromatic hydrocarbons from consumption of meats and breads in the United States[J]. Food and Chemical Toxicology,2018(114):361-374.<br />
[12]	ZETTERBERG L A,DARNERUD P O,WRETLING S.Low intake of polycyclic aromatic hydrocarbons in Sweden:Results based on market basket data and a barbecue study[J]. Food and Chemical Toxicology,2014(74):107-111.<br />
[13]	VEYRAND B,SIROT V,DURAND S,et al.Human dietary exposure to polycyclic aromatic hydrocarbons:results of the second French Total Diet Study[J]. Environment International, 2013, 54:11-17.<br />
[14]	JIANG D,XIN C,LI W,et al.Quantitative analysis and health risk assessment of polycyclic aromatic hydrocarbons in edible vegetable oils marketed in Shandong of China［J］. Food and Chemical Toxicology，2015（83）：61-67. <br />
[15］	宫春波，王朝霞，董峰光，等.食用植物油中多环芳烃的污染情况及健康风险评价［J］. 中国油脂，2013，38（5）：7579.<br />
[16］	LI G，WU S M，WANG L，et al. Concentration，dietary exposure and health risk estimation of polycyclic aromatic hydrocarbons（PAHs）in youtiao，a Chinese traditional fried food［J］. Food Control，2016，59：328-336. <br />
[17］	曹梦思，王君，张立实，等. 中国居民膳食油脂多环芳烃暴露的定量风险评估［J］. 中华预防医学杂志，2016，50（2）：163- 167. <br />
[18］	DING C，NI H G，ZENG H. Human exposure to parent and halogenated polycyclic aromatic hydrocarbons via food consumption in Shenzhen，China. Science of The Total Environment. 2013（443）： 857-863. <br />
[19］	Commission regulation（EU）No 835 amending regulation（EC）No 1881/2006 as regards maximum levels for polycyclic aromatic hydrocarbons in foodstuffs［R］. Official Journal of the European Union，2011：4-8. <br />

[1]	宋韶芳, 张维蔚, 张玉华, 王燕燕, 曾锦衡, 潘心红. 广州市21种市售蔬菜新烟碱类杀虫剂膳食风险评估[J]. 预防医学, 2023, 35(9): 781-785.
[2]	林天祥, 邱银伟, 汪炜, 赵艳荣, 姜学文, 杨清. 基于基本公共卫生服务项目构建中老年人群高血压风险评估模型[J]. 预防医学, 2022, 34(8): 816-820.
[3]	周少磊, 刘波, 王鹏, 郑旭, 董静. 北京市通州区农村饮用水砷暴露健康风险评估[J]. 预防医学, 2022, 34(7): 705-709.
[4]	朱玲慧, 鲁英, 张露艺. 孕期PAHs暴露与胎盘线粒体拷贝数的关联研究[J]. 预防医学, 2022, 34(3): 248-252.
[5]	顾永权, 王爱红, 毛荷明, 胡向前, 冷朋波, 苗超. 两家黑色金属铸造企业职业健康风险评估结果分析[J]. 预防医学, 2021, 33(9): 924-927,931.
[6]	张鹏, 刘弢, 张敏, 张传会, 施长苗, 闫福. 四种职业健康风险评估方法在电子元件及组件制造企业的应用比较[J]. 预防医学, 2021, 33(9): 928-931.
[7]	张俊彦, 占利, 张云怡, 陈建才, 陈鸿鹄, 张政. 浙江省市售散装熟肉制品单核细胞增生李斯特菌污染的半定量风险评估[J]. 预防医学, 2021, 33(7): 656-659,664.
[8]	牛勇, 张璘, 刘凯, 俞兵, 章荣平, 韩磊, 谢丽庄, 吴鹏, 叶萌. 水泥生产企业粉尘职业健康风险评估[J]. 预防医学, 2021, 33(6): 558-562,567.
[9]	王心怡, 吴晨, 缪梓萍, 孙琬琬, 余昭, 周洋, 朱瑶, 吴昊澄, 丰燕, 陈奕娟, 林君芬. 2021年3月浙江省突发公共卫生事件风险评估[J]. 预防医学, 2021, 33(3): 217-220.
[10]	赵毕, 周标. 中国花生及其制品黄曲霉毒素污染与风险评估研究现状[J]. 预防医学, 2021, 33(12): 1228-1230.
[11]	秦汝男, 唐慧晶, 李梅莉, 刘保峰, 曾强. 不同风险评估法在纸面石膏板生产企业粉尘危害评估中的应用比较[J]. 预防医学, 2021, 33(11): 1161-1165.
[12]	胡明友, 王芳, 姚建花, 吴丹青, 杨凤华. 湖州市饮用源水多环芳烃监测结果[J]. 预防医学, 2020, 32(9): 947-949.
[13]	吴晓丽, 赵毕, 齐小娟, 周标. 食品中化学污染物风险评估方法研究进展[J]. 预防医学, 2020, 32(7): 682-685.
[14]	宋韶芳, 陈坤才, 刘于飞, 潘心红, 张维蔚, 李燕, 黄婕, 张玉华, 钟贤武, 曾锦衡, 李美霞. 广州市市售大米镉污染及健康风险评估[J]. 预防医学, 2020, 32(7): 723-725.
[15]	吴昊澄, 丁哲渊, 吴晨, 鲁琴宝, 李傅冬, 林君芬. 浙江省新型冠状病毒肺炎病例境外输入风险分析[J]. 预防医学, 2020, 32(6): 541-545.

Viewed

Full text

Abstract

Cited

Shared

Discussed