doi:

DOI: 10.3724/SP.J.1123.2019.08002

Chinese Journal of Chromatography (色谱) 2019/37:12 PP.1268-1274

Research progress on pretreatment and detection of bisphenols in food and environmental samples


Abstract:
Bisphenols, which are environmental endocrine disruptors, are widely found in food packaging materials and the environment, polluting the ecological environment and inducing harm to human health. Bisphenol residues constitute an important food safety problem at present. Hence, detecting the bisphenol content in food and environmental samples is of great significance for protecting human health. Because of the low concentration and matrix interference, a combination of sample pretreatment and instrumental analysis is imperative for improving the detection efficiency and enhancing the analytical sensitivity and reliability. Common pretreatment and analysis methods mainly include liquid-liquid extraction, microwave-assisted extraction, solid-phase extraction, solid-phase microextraction, matrix-dispersive solid-phase extraction, and QuEChERS. Common instrumental analysis methods include liquid chromatography, gas chromatography, capillary electrophoresis, immunoassays, and biosensors. In this paper, various methods for sample pretreatment and instrumental analysis of bisphenols in food and environmental samples are reviewed, with the aim of providing a reference for the residue monitoring of bisphenols.

Key words:pretreatment,detection,bisphenols,food,environmental samples,review

ReleaseDate:2019-12-02 10:05:17



[1] Hoekstra E J, Catherine S. Crit Rev Food Sci Nutr, 2013, 53(4):386

[2] Chen D, Kannan K, Tan H, et al. Environ Sci Technol, 2016, 50(11):5438

[3] Chi H T.[PhD Dissertation]. Beijing:Beijing Institute of Technology, 2015 池海涛.[博士学位论文]. 北京:北京理工大学, 2015

[4] Liu Z M, Xu Z G, He S Q, et al. Journal of Yunnan Normal University (Natural Science Edition), 2012, 32(6):58 刘智敏, 许志刚, 何素琼, 等. 云南师范大学学报(自然科学版), 2012, 32(6):58

[5] Guart A, Bono-Blay F, Borrell A, et al. Food Addit Contam Part A Chem Anal Control Expo Risk Assess, 2011, 28(5):676

[6] Ye W Y. Guangdong Chemical Industry, 2015, 42(2):87 叶伟莹. 广东化工, 2015, 42(2):87

[7] Kubwabo C, Kosarac I, Stewart B, et al. Food Addit Contam Part A Chem Anal Control Expo Risk Assess, 2009, 26(6):928

[8] Bang D Y, Kyung M, Min J K, et al. Compr Rev Food Sci F, 2012, 11(5):453

[9] Castro B, Sánchez P, Torres J M, et al. Environ Res, 2015, 142:281

[10] Li Y N, Zhou Q X. Chinese Journal of Ecology, 2008, 27(2):263 李亚宁, 周启星. 生态学杂志, 2008, 27(2):263

[11] Chen T T, Xi H B, Zhou Y X, et al. Environmental Protection of Chemical Industry, 2018, 38(6):744 陈婷婷, 席宏波, 周岳溪, 等. 化工环保, 2018, 38(6):744

[12] Qian L, Li X J, Qu S S, et al. Food Research and Development, 2016, 37(24):144 钱镭, 李秀军, 曲双双, 等. 食品研究与开发, 2016, 37(24):144

[13] Qu S S.[MS Dissertation]. Harbin:East University of Heilongjiang, 2016 曲双双.[硕士学位论文]. 哈尔滨:黑龙江东方学院, 2016

[14] Cunha S C, Fernandes J O. Talanta, 2011, 83(1):117

[15] Seyed A H. J Chromatogr B, 2016, 1028:186

[16] Rezaee M, Yamini Y, Shariati S, et al. J Chromatogr A, 2009, 1216(9):1511

[17] Jiang X L, Chen M, Chen K, et al. China Pulp and Paper Industry, 2014, 35(6):26 蒋小良, 陈梅, 陈凯, 等. 中华纸业, 2014, 35(6):26

[18] Xue M.[MS Dissertation]. Hangzhou:Zhejiang Gongshang University, 2010 薛鸣.[硕士学位论文]. 杭州:浙江工商大学, 2010

[19] Liu R, Zhou J L, Wilding A. J Chromatogr A, 2004, 1038(1):19

[20] Han W, Liu Y Y, Liu W, et al. Journal of Qingdao University of Science and Technology (Natural Sciences Edition), 2015, 36(6):612 韩玮, 刘云云, 刘伟, 等. 青岛科技大学学报(自然科学版), 2015, 36(6):612

[21] Buscher B, van de Lagemaat D, Gries W, et al. J Chromatogr B Analyt Technol Biomed Life Sci, 2015, 1005:30

[22] Ning W J, Ma Y J, Chen X W, et al. Chinese Journal of Food Hygiene, 2016, 28(6):772 宁文吉, 马云杰, 陈秀雯, 等. 中国食品卫生杂志, 2016, 28(6):772

[23] Zhang P, Zhang J, Chen J J, et al. Chinese Journal of Analytical Chemistry, 2014, 42(12):1811 张品, 张晶, 陈洁君, 等. 分析化学, 2014, 42(12):1811

[24] Hu Y, Wen S, Yuan D Z, et al. Gynecol Endocrinol, 2018, 34(5):370

[25] Amayreh M, Chanbasha B, Abdul R. Talanta, 2013, 115:308

[26] Kirschner N, Dias A N, Budziak D, et al. Anal Chim Acta, 2017, 996:29

[27] Diao C P, Li C, Peng H, et al. Environmental Monitoring in China, 2016, 32(5):111 刁春鹏, 李聪, 彭辉, 等. 中国环境监测, 2016, 32(5):111

[28] Diao C P, Yang X, Sun A L, et al. Chinese Journal of Analysis Laboratory, 2015, 34(12):1370 刁春鹏, 杨肖, 孙爱玲, 等. 分析试验室, 2015, 34(12):1370

[29] Shao B, Gao Y X, Han H, et al. Environmental Chemistry, 2005(4):483 邵兵, 高迎新, 韩灏, 等. 环境化学, 2005(4):483

[30] Cai Y H, Peng H, Pei X Y, et al. Physical Testing and Chemical Analysis (Part B:Chemical Analysis), 2017, 53(10):1151 蔡言红, 彭辉, 裴晓洋, 等. 理化检验(化学分册), 2017, 53(10):1151

[31] Gao M J, Zhou Y, Sheng Y G, et al. Chinese Journal of Chromatography, 2014, 32(11):1201 高梦婕, 周瑶, 盛永刚, 等. 色谱, 2014, 32(11):1201

[32] Cunha S C, Fernandes J O. Food Control, 2013, 33(2):549

[33] Yu Z L, Zuo Y, Ma R X, et al. Journal of Instrumental Analysis, 2019, 38(3):301 于紫玲, 左优, 马瑞雪, 等. 分析测试学报, 2019, 38(3):301

[34] Liu T, Huang Z Y. China Measurement & Testing Technology, 2018, 44(11):152 刘涛, 黄子晏. 中国测试, 2018, 44(11):152

[35] Dang A, Sieng M, Pesek J J, et al. J Liq Chromatogr Rel Technol, 2015, 38(4):438

[36] Wang Y C, Zhang L H, Yang X, et al. Chinese Journal of Analysis Laboratory, 2017, 36(8):971 王延翠, 张立衡, 杨肖, 等. 分析试验室, 2017, 36(8):971

[37] Yen S, Nakashima M N, Masakatsu T, et al. Biomed Chromatogr, 2010, 16(5):319

[38] Li Y, Zhang S, Song C, et al. Food Analytical Methods, 2013, 6(5):1284

[39] Xuan D L, Chen J. Modern Preventive Medicine, 2008, 35(23):4663 宣栋樑, 陈静. 现代预防医学, 2008, 35(23):4663

[40] Yang R H, Niu Y M, Wang B, et al. J Agric Food Chem, 2018, 66(37):9810

[41] Gong W J, Chen X H, Wang Q L. Chinese Journal of Health Laboratory Technology, 2019, 29(5):513 龚文杰, 陈晓红, 王群利. 中国卫生检验杂志, 2019, 29(5):513

[42] Song W L, Li C, Moezzi B, et al. Rapid Commun Mass Spectrom, 2013, 27:671

[43] Cheng Y, Nie X M, Wu H Q, et al. Anal Chim Acta, 2017, 950:98

[44] Santhi V A, Hairin T, Mustafa A M. Chemosphere, 2012, 86(10):1066

[45] Selvaraj K K, Shanmugam G, Sampath S, et al. Ecotoxicol Environ Saf, 2014, 99(1):13

[46] Ke X. China Measurement & Testing Technology, 2016, 42(3):45 克选. 中国测试, 2016, 42(3):45

[47] Huang H, Deng X X, Zhang H W, et al. Food Science, 2013, 34(24):116 黄会, 邓旭修, 张华威, 等. 食品科学, 2013, 34(24):116

[48] Sajiki J, Hasegawa Y H. Toxicol Method, 2008, 18(9):733

[49] Feng Y, Ning B, Su P, et al. Talanta, 2010, 80(2):803

[50] Liang J Y, Huang P N, Weng Y, et al. Guangdong Chemical Industry, 2013, 40(18):121 梁嘉艺, 黄丕浓, 翁艳, 等. 广东化工, 2013, 40(18):121

[51] Dong Y L, Chen X J, Hu J, et al. Chinese Journal of Chromatography, 2012, 30(11):1117 董亚蕾, 陈晓姣, 胡敬, 等. 色谱, 2012, 30(11):1117

[52] Gao F F, Liu J Y, Lu W H, et al. Chinese Journal of Chromatography, 2018, 36(6):573 高芳芳, 刘军英, 鹿文慧, 等. 色谱, 2018, 36(6):573

[53] Gu X Y, Zhang R, Jiang F, et al. Journal of Anhui Agricultural Sciences, 2018, 46(34):179 顾翔源, 张瑞, 姜峰, 等. 安徽农业科学, 2018, 46(34):179

[54] Rahman M A, Shiddiky M J A, Park J S, et al. Biosens Bioelectron, 2007, 22(11):2464

[55] Liu N, Dong F S, Xu J, et al. J Sep Sci, 2016, 39(7):1363

[56] Zhang Y, Zhou W E, Li S H, et al. J Chromatogr A, 2016, 1432:132

[57] Tao Y F, Paula R, Stolker A M, et al. J Chromatogr B, 2015, 988:143

[58] Tao Y, Zheng Z T, Yu Y, et al. Food Chem, 2018, 241:32

[59] Wu W J, Zhang Y, Wu H Q, et al. J Sep Sci, 2017, 40(13):2827

[60] Zhang Y J, Ling Y, Zhang Y, et al. J Sep Sci, 2019, 42(15):2578