新型驱蚊产品中35种挥发性致敏芳香剂的筛查方法及挥发规律研究

李红艳; 胡玉霞; 李长于; 王瑾

doi:10.19969/j.fxcsxb.22052201

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新型驱蚊产品中35种挥发性致敏芳香剂的筛查方法及挥发规律研究

DRE论文大赛专栏 | 更新时间：2023-01-04

- 新型驱蚊产品中35种挥发性致敏芳香剂的筛查方法及挥发规律研究
- Study on Screening of 35 Volatile Allergic Fragrances in New Mosquito Repellent Products and Their Volatilization Patterns
- 分析测试学报 2022年41卷第12期页码：1758-1764
- 作者机构：
  
  1.浙江省产品质量安全科学研究院，浙江杭州 310018
  2.浙江经贸职业技术学院，浙江杭州 310018
  3.浙江方圆检测集团股份有限公司，浙江杭州 310018
- 作者简介：
  
  李红艳，硕士，高级工程师，研究方向：色谱质谱分析，E - mail：yourlhy@163.com
- 基金信息：
  
  浙江省市场监督管理局科技计划项目(20210102);雏鹰计划重大培育项目(CY202109)
- DOI：10.19969/j.fxcsxb.22052201
  中图分类号：
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李红艳,胡玉霞,李长于等.新型驱蚊产品中35种挥发性致敏芳香剂的筛查方法及挥发规律研究[J].分析测试学报,2022,41(12):1758-1764.

LI Hong-yan,HU Yu-xia,LI Chang-yu,et al.Study on Screening of 35 Volatile Allergic Fragrances in New Mosquito Repellent Products and Their Volatilization Patterns[J].Journal of Instrumental Analysis,2022,41(12):1758-1764.
李红艳,胡玉霞,李长于等.新型驱蚊产品中35种挥发性致敏芳香剂的筛查方法及挥发规律研究[J].分析测试学报,2022,41(12):1758-1764. DOI： 10.19969/j.fxcsxb.22052201.

LI Hong-yan,HU Yu-xia,LI Chang-yu,et al.Study on Screening of 35 Volatile Allergic Fragrances in New Mosquito Repellent Products and Their Volatilization Patterns[J].Journal of Instrumental Analysis,2022,41(12):1758-1764. DOI： 10.19969/j.fxcsxb.22052201.

摘要

基于顶空/气相色谱－串联质谱（HS/GC－MS/MS）建立了驱蚊贴、驱蚊扣、驱蚊手环等新型驱蚊产品中35种挥发性致敏芳香剂的分析方法。35种物质经中等极性色谱柱Agilent DB－17MS分离，采用电子轰击源（EI源）通过多反应监测（MRM）模式进行检测。考察了37个新型驱蚊样品在顶空温度分别为40 ℃和100 ℃时的筛查结果，40 ℃顶空条件下筛查出,α,-蒎烯、,β,-蒎烯和,D,-柠檬烯等14种致敏芳香剂，此外，100 ℃时还检出香叶醇、香芹酮等其它12种致敏芳香剂。以儿童用驱蚊贴和驱蚊扣为例，比较了不同顶空温度对各目标化合物响应强度的影响，结果表明，40 ℃时,α,-蒎烯、,β,-蒎烯和,D,-柠檬烯等8种致敏芳香剂的响应强度小于100 ℃时。对37个样品在40 ℃平衡温度下的半定量分析表明，,α,-蒎烯、,β,-蒎烯、,D,-柠檬烯等9种致敏芳香剂的检出率最高，其中,α,-蒎烯和,D,-柠檬烯的最高响应强度大于10,6,。选择驱蚊贴和驱蚊扣进一步考察了,α,-蒎烯、,β,-蒎烯、,D,-柠檬烯、薄荷醇和樟脑5种致敏芳香剂在40 ℃下放置不同时间的挥发规律，发现,α,-蒎烯、,β,-蒎烯和,D,-柠檬烯放置12 h的响应强度为初始的20% ~ 21%，薄荷醇和樟脑放置72 h后响应强度仍为初始的40%以上。该研究可为后续开展新型驱蚊产品中化学物质的含量测定和风险评估提供技术参考。

Abstract

A headspace/gas chromatography－tandem mass spectrometry（HS/GC－MS/MS） was established for the screening of 35 volatile allergic fragrances in different new mosquito repellent products．The new mosquito repellent products included mosquito repellent stickers，mosquito repellent buckles and mosquito repellent bracelets，etc．35 substances were separated by a medium polarity Agilent DB－17MS column and detected with electron impact ion source（EI） under multiple reactions monitoring（MRM） mode．Two different headspace equilibrium temperatures of 40 ℃ and 100 ℃ were selected．The screening results for 37 new mosquito repellent products showed significant differences at different temperatures．A total of 14 volatile allergic fragrances were detected at 40 ℃，including ,α,-pinene，,β,-pinene，,D,-limonene，benzaldehyde，terpinolene，linalool，,DL,-menthol，,D,-camphor，linalyl acetate，citronellol，methyl salicylate，citral，,β,-caryophyllene and cinnamaldehyde．In addition，another 12 allergic fragrances at 100 ℃ were found，including terpineol，geraniol，carvone，4-methoxyphenol，4-tert-butylphenol，,trans,-anethole，eugenol，benzalacetone，lily aldehyde，farnesol，,α,-amylcinnamyl alcohol and benzyl benzoate．Taking the mosquito repellent stickers and mosquito repellent buckles for children for examples，the response intensities of the target compounds at different headspace temperatures were semi-quantitatively determined．The results showed that the response intensities for the 8 volatile allergic fragrances at 40 ℃ were less than those at 100 ℃．37 samples were semi-quantitatively analyzed at the equilibrium temperature of 40 ℃．The results indicated that 9 volatile allergic fragrances，i.e．,α,-pinene，,β,-pinene，,D,-limonene，benzaldehyde，terpinolene，linalool，,DL,-menthol，,D,-camphor and methyl salicylate were detected in most samples，in which the maximum response intensities for ,α,-pinene and ,D,-limonene were more than 10,6,．The volatilization patterns for volatile allergic fragrances in new mosquito repellent products were also studied at 40 ℃．The contents of the mosquito repellent stickers and mosquito repellent buckles kept at 40 ℃ for different times were determined，of which 5 volatile allergic fragrances，including ,α,-pinene，,β,-pinene，,D,-limonene，,DL,-menthol and ,D,-camphor with high detection rates and strong response intensities were investigated. Among the 5 analytes，,α,-pinene，,β,-pinene and ,D,-limonene showed significant downward trends from 0 hour to 12 hours，which decreased to 20%－21%．The response intensities for both ,DL,-menthol and ,D,-camphor were still more than 40% of those at the beginning after 72 hours．This study provides a technical reference for the subsequent quantitative analysis and risk assessment of multiple allergic fragrances in mosquito repellent products.

关键词

顶空气相色谱－串联质谱驱蚊产品致敏芳香剂挥发规律

Keywords

headspacegas chromatography－tandem mass spectrometry（GC－MS/MS）mosquito repellent productallergic fragrancevolatilization patterns

references

Azeem M，Zaman T，Tahir M，Haris A，Iqbal Z，Binyameen M，Nazir A，Shad S A，Majeed S，Mozuraitis R．Ind. Crops Prod.，2019，15（140）：111609.

Ma Y P，Li M X，Zhang H X，Sun H Z，Su H H，Wang Y H，Du Z Z．J. Ethnopharmacol.，2019，1（231）：386－393.

Ansaria M A，Padma V，Mamta T，Razdana R K．Bioresour. Technol.，2000，71：267－271.

Mota T F，Silva C M，Concericao M S，Fraga D B，Brodskyn C I，Neto M F，Santana I B，Mesquita P R，Leite F A，Magalhaes－Junior J T．Acta Trop.，2022，229：106367.

Araujoluz T R S，Mesquita L S S，Amara F M M，Coutinho D F．Acta Trop.，2020，212：105705.

RegulationEU） No. 528/2012 of the European Parliament and of the Council of 22 May 2012 Concerning the Making Available on the Market and Use of Biocidal Products. ［2013－09－13］. https：//eur-lex.europa.eu/eli/reg/2012/528/2013－09－23https://eur-lex.europa.eu/eli/reg/2012/528/2013-09-23.

United States Environmental Protection Agency. Skin－Applied Insect Repellents. ［2022－03－08］. https：//www.epa.gov/insect-repellents/skin-applied-repellent-ingredientshttps://www.epa.gov/insect-repellents/skin-applied-repellent-ingredients.

Protect Yourself and Your Family from Mosquito Bites. ［2020－12－07］. https：//www.cdc.gov/westnile/prevention/https://www.cdc.gov/westnile/prevention/.

National Pesticide Information Center. Citronella. ［2019－01－15］. http：//npic.orst.edu/ingred/citronella.htmlhttp://npic.orst.edu/ingred/citronella.html.

GB 24330－2020．General Security Technical Specification for Domestic Sanitary Insecticide. National Standards of the People’s Republic of China（家用卫生杀虫用品安全通用技术条件．中华人民共和国国家标准）.

Gou Y，Li Z N，Fan R Y，Guo C G，Wang L，Sun H Z，Li J P，Zhou C P，Wang C，Wang Y H．J. Ethnopharm.，2020，262：113124.

Wolkoff P，Nielsen G D．Environ. Int.，2017，101：96－107.

Basketter D A，Huggard J，Kimber I．Regul. Toxicol. Pharm.，2019，（104）：151－156.

Kumar M，Devi A，Sharama M，Kaur P，Mandalu K．J. Cosmet. Dermatol.，2021，2（20）：391－399.

Riboni N，Fornari F，Bianchi F，Careri M．Talanta，2021，224：121891.

Mazzucotelli M，Minteguiaga M A，Sgorbini B，Sidisky L，Marengo A，Rubiolo P，Bicchi C，Cagliero C．J. Chromatogr.，2020，1610：460567.

Wang Z J，Zhang Q，Li H Y，Lv Q，Wang W，Bai H．J. Sep. Sci.，2018，41：657－668.

Long P，Zheng L，Gao J N，Wu Y X，Xu J M，Ren F，Gao D Q．China Surfactant Deterg. Cosmet. 龙培，郑琳，高佳男，吴一鑫，许佳明，任飞，高道清．日用化学工业），2020，10（50）：725－730.

Cui S H，Niu Z Y，Zhang X M，Qin L Y，Luo X．J. Chin. Mass Spectrom. Soc. （崔淑华，牛增元，张晓梅，秦良勇，罗忻．质谱学报），2016，37（2）：163.

Liu Y H，Wang Z J，Yan Z，Zhang Q，Ma Q，Bai H，Lü Q．Chin. J. Anal. Chem. （刘雅慧，王志娟，闫正，张庆，马强，白桦，吕庆．分析化学），2019，47（1）：129－137.

Xi H W，Ma Q，Li Q，Lei H M，Bai H，Wang C．J. Instrum. Anal. （席海为，马强，李强，雷海民，白桦，王超．分析测试学报），2010，29（1）：46－50.

Yang R J，Wei B W，Gao H，Yu W J．Chin. J. Chromatogr. （杨荣静，卫碧文，高欢，于文佳．色谱），2012，30（2）：160－164.

Meng X S，Ma Q，Yuan H C，Bai H，Zhang Q，Guo X Y．J. Instrum. Anal. （孟宪双，马强，袁汉成，白桦，张庆，郭项雨．分析测试学报），2016，35（7）：799－804.

Toy Safety Directive 2009/48/EC 11.3.11 Point 11：104－109. ［2021－12－16］. http：//ec.europa.eu/growth/sectors/toys/safety/indexen.htmhttp://ec.europa.eu/growth/sectors/toys/safety/indexen.htm.

Lunguinho A S，Cardoso M G，Ferreira V R F，Konig I F M，Gonçalves R R P，Brandao R M，Caetano A R S，Nelson D L，Remedio R N．Vet. Parasitol.，2021，300：109594.

Wu G，Ge F．Acta Parasitol. Et Med. Entomol. Sin. （吴刚，戈峰．寄生虫与医学昆虫学报），2004，11（4）：253－256.

Naimi I，Zefzoufi M，Bouamama H，Mhamed T B．Ind. Crops Prod.，2022，182：114817.

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