化妆品中防腐剂的应用现状及检测技术研究进展

doi:10.3969/j.issn.2097-2806.2023.06.010

摘要/Abstract

摘要：

化妆品中的防腐剂在抑制微生物生长、延长产品保质期方面发挥了重要作用，但其使用不当会损害人体健康并对环境和生态安全造成潜在危害。随着化妆品安全事件的频发，居民消费安全意识的提升和行业监管法规趋严，防腐剂的添加状况成为社会各界的关注焦点。文章总结了当前化妆品中防腐剂的使用现状，梳理了近年来常规检测技术在化妆品中防腐剂领域的最新应用，介绍了高效液相色谱-电感耦合等离子体质谱法和激光解吸附离子化质谱等新型检测手段。分析了化妆品中防腐剂的市场发展前景和检测技术发展方向，为今后化妆品中防腐剂的监管和高通量快速检测提供借鉴。

关键词: 化妆品, 防腐剂, 应用, 检测技术

Abstract:

Preservatives in cosmetics play an important role in inhibiting the growth of microbial and maintaining the product quality. With the influence of domestic and foreign residents' consumption level upgrading and the rapid development of Internet and other factors, the market demand of domestic cosmetics is growing steadily. However, the improper use of preservatives could be harmful to human health and cause negative effects on environment and ecological security. With the frequent occurrence of cosmetic safety incidents, the safety awareness of consumers has been improved and the industry regulations has been strengthened. Nowadays, the addition of preservatives has received much attention, which sets a higher request to the market regulations of cosmetics preservatives. The species of the cosmetic preservatives used at home and abroad have significantly increased. Accordingly, the analytical methods for single preservatives are difficult to meet new regulatory requirements. With the rapid upgrade of modern instrumental analysis technology, high-throughput, efficient, high-sensitivity and low-cost detection methods are essential to push the development of the industry. In this review, the current status of cosmetic preservatives is outlined and the up to date applications of conventional instruments for their detections have been summarized. Some novel detection methods are introduced, such as high performance liquid chromatography-inductively coupled plasma mass spectrometry and laser desorption ionization mass spectrometry. The market development of cosmetic preservatives and detection technology on them are analyzed and prospected, which would shed light on the high-throughput rapid detection of cosmetic preservatives in the future.

Key words: cosmetics, preservatives, application, detection technology

中图分类号:

TQ658

朱海荣, 孙胜敏, 张娟, 刘爽, 刘倩倩, 邹惠玲. 化妆品中防腐剂的应用现状及检测技术研究进展[J]. 日用化学工业（中英文）, 2023, 53(6): 679-685.

Zhu Hairong, Sun Shengmin, Zhang Juan, Liu Shuang, Liu Qianqian, Zou Huiling. Recent progress on the application status of cosmetic preservatives and their detection technology[J]. China Surfactant Detergent & Cosmetics, 2023, 53(6): 679-685.

图/表 1

参考文献 43

[1]	Matwiejczuk N, Galicka A, Brzóska M. Review of the safety of application of cosmetic products containing parabens[J]. Journal of Applied Toxicology, 2020, 40 (1) : 176-210. doi: 10.1002/jat.3917 pmid: 31903662
[2]	Burnett C L, Bergfeld W F, Belsito D V, et al. Amended safety assessment of methylchloroisothiazolinone and methylisothiazolinone as used in cosmetics[J]. International Journal of Toxicology, 2021, 40 (1 suppl) : 20-33.
[3]	Huang Xianglu, Lu Jiacan, Xing Shuxia, et al. Research progress on toxicology and risk assessment of zinc pyrithione as cosmetics ingredient[J]. China Surfactant Detergent & Cosmetics, 2021, 51 (12) : 1235-1241.
[4]	Tanaka T, Oishi M, Okazaki M. The relationship between the preservative efficacy and cytotoxicity of two common preservatives used in cosmetics[J]. Journal of Oral Tissue Engineering, 2018, 15 (3) : 186-192.
[5]	Boyer I J, Heldreth B, Bergfeld W F, et al. Amended safety assessment of formaldehyde and methylene glycol as used in cosmetics[J]. International Journal of Toxicology, 2013, 32 (4 suppl) : 5-32.
[6]	The State Food and Drug Administration. Safety and technical standards for cosmetics (2015 Edition)[S]. Beijing: The State Food and Drug Administration, 2016.
[7]	Zhang Xing, Ji Jing. Review on the regulations and status quo of preservatives applied in infant cosmetics[J]. China Cleaning Industry, 2020 (6) : 43-48.
[8]	Cao Mengcen, Feng Tingting, Zhang Xiaochai, et al. Investigation on preservatives use in commercial cosmetics[J]. Journal of Environmental Hygiene, 2017, 7 (4) : 296-300.
[9]	Pan Yao, Ge Rujiao, Wan Qingqing, et al. Investigation on the use of preservatives in cosmetic masks[J]. Chinese Journal of Health Laboratory, 2019, 29 (21) : 2571-2574, 2578.
[10]	Ru Ge, Wang Ke, Zheng Rong. Investigation on the addition of formaldehyde and formaldehyde releasing preservatives in 550 cosmetics[J]. Journal of Environment and Health, 2018, 35 (7) : 654-655.
[11]	Chen Cen, Cui Beizhou, Gao Yanlin, et al. Analysis on the use of isothiazolinone preservatives in rinse-off cosmetics[J]. Detergent & Cosmetics, 2022, 45 (3) : 26-31, 57.
[12]	Flavors Fragrances and Cosmetics. Determination of benzyl alcohol as antiseptic in cosmetics by gas chromatography method: GB/T 24800.11—2009[S]. Beijing: Standards Press of China, 2009.
[13]	Flavors Fragrances and Cosmetics. Determination of 24 preservatives in cosmetics by high performance liquid chromatography method:GB/T 26517—2011[S]. Beijing: Standards Press of China, 2011.
[14]	Flavors Fragrances and Cosmetics. Cosmetic preservatives-mixture of methylchloroisothiazolinone and methylisothiazolinone with magnesium chloride and magnesium nitrate: GB/T 29666—2013[S]. Beijing: Standards Press of China, 2013.
[15]	Flavors Fragrances and Cosmetics. Determination of hexamidine, chlorhexidine and their salts as preservatives in cosmetics—High performance liquid chromatography: GB/T 35800—2018[S]. Beijing: Standards Press of China, 2018.
[16]	Flavors Fragrances and Cosmetics. Determination of seven parabens in cosmetics—high performance liquid chromatography:GB/T 35948—2018[S]. Beijing: Standards Press of China, 2018.
[17]	Flavors Fragrances and Cosmetics. Determination of permitted preservatives dimethyl oxazolidine, 7-ethylbicyclooxazolidine and 5-bromo-5-nitro-1, 3-dioxane in cosmetics: GB/T 39993—2021[S]. Beijing: Standards Press of China, 2021.
[18]	Baranowska I, Wojciechowska I, Solarz N, et al. Determination of preservatives in cosmetics, cleaning agents and pharmaceuticals using fast liquid chromatography[J]. Journal of Chromatographic Science, 2014, 52 (1) : 88-94. doi: 10.1093/chromsci/bms210 pmid: 23324734
[19]	Khan I, Iqbal Z, Khan A, et al. A simple, rapid and sensitive RP-HPLC-UV method for the simultaneous determination of sorafenib & paclitaxel in plasma and pharmaceutical dosage forms: Application to pharmacokinetic study[J]. Journal of Chromatography B, 2016, 1033: 261-270.
[20]	Sun W, Hu X, Meng X, et al. Molybdenum disulfide-graphene oxide composites as dispersive solid-phase extraction adsorbents for the enrichment of four paraben preservatives in cosmetics[J]. Microchimica Acta, 2021, 188 (8) : 1-9. doi: 10.1007/s00604-020-04655-3
[21]	Rajabi M, Sarhadi A, Bazregar M, et al. Rapid derivatization and extraction of paraben preservatives by fast syringe-assisted liquid-liquid microextraction and their determination in cosmetic and aqueous sample solutions by gas chromatography[J]. Analytical Methods, 2017, 9 (41) : 5963-5969. doi: 10.1039/C7AY01375B
[22]	Liu Yunfeng, Zhang Jialing, Nie Xuefei, et al. Simultaneous determination of 11 preservatives in cosmetics and pharmaceuticals by matrix solid-phase dispersion coupled with gas chromatography[J]. Acta Chromatographica, 2020, 32 (3) : 203-209. doi: 10.1556/1326.2019.00700
[23]	Li Li, Li Shuo, Wang Haiyan, et al. Influence of chromatographic column selection on the determination of 23 preservatives[J]. Chinese Journal of Chromatography, 2022, 40 (2) : 190-197. doi: 10.3724/SP.J.1123.2021.05006
[24]	Zhong Jiqiang, Zheng Rong, Chen Dandan, et al. Detection of 7 kinds of preservatives in cosmetics by gas chromatography with electron capture detector[J]. Chinese Journal of Pharmaceutical Analysis, 2018, 38 (5) : 806-811.
[25]	Lin Maofa, Huang Yonghui, Hu Zhaoyang, et al. Simultaneous determination of restricted phenolic preservatives in cosmetics by GC[J]. Flavour Fragrance Cosmetics, 2018 (4) : 49-53, 73.
[26]	Xu Jiaqi, Yang Hongmei, Gong Shengzhao. Simultaneous determination of six kinds of preservatives in cosmetics by HPLC[J]. Flavour Fragrance Cosmetics, 2021 (5) : 51-54.
[27]	Xing Haiyan, Sun Li, Wu Xu, et al. Simultaneous determination of nine kinds of 4-hydroxybenzoate preservatives in cosmetics by high performance liquid chromatography[J]. Chemical Analysis and Meterage, 2021, 30 (5) : 46-50.
[28]	Chen Dandan, Ru Ge, Yuan Xiaoqian, et al. Determination of diazolidinyl urea in cosmetics by high performance liquid chromatography[J]. Chemical Analysis and Meterage, 2019, 28 (3) : 57-59, 67.
[29]	Xu Yong, Zhong Qiang, Zheng Rong. Determination of the contents of seventeen kinds of preservative in cosmetic by GC-MS[J]. Flavour Fragrance Cosmetics, 2020 (6) : 72-79.
[30]	Sun Jing, Tan Li, Cao Ling, et al. Determination of 25 preservatives in cosmetics by gas chromatography-tandem mass spectrometry[J]. Chinese Journal of Chromatography, 2019, 37 (3) : 331-339. doi: 10.3724/SP.J.1123.2018.11007
[31]	Zhou Fadong, Zhang Wei, Li Liyuan, et al. Determination of 2, 4, 6-Trichlorophenol, pentachlorophenol in toner and moisturizer by liquid chromatography-tandem mass spectrometey[J]. Journal of the Hebei Academy of Sciences, 2015, 32 (1) : 47-53.
[32]	Alvarez-Rivera G, Dagnac T, Lores M, et al. Determination of isothiazolinone preservatives in cosmetics and household products by matrix solid-phase dispersion followed by high-performance liquid chromatography-tandem mass spectrometry[J]. Journal of Chromatography A, 2012, 1270: 41-50. doi: 10.1016/j.chroma.2012.10.063 pmid: 23182288
[33]	Guerra E, Alvarez-Rivera G, Llompart M, et al. Simultaneous determination of preservatives and synthetic dyes in cosmetics by single-step vortex extraction and clean-up followed by liquid chromatography coupled to tandem mass spectrometry[J]. Talanta, 2018, 188: 251-258. doi: S0039-9140(18)30546-0 pmid: 30029372
[34]	Wang Xiujuan, Guo Wei, Cheng Yunxia, et al. Simultaneous determination of 10 kinds of preservatives in children's cosmetics by QuEChERS-high performance liquid chromatography-tandem mass spectrometry[J]. Journal of Food Safety & Quality, 2021, 12 (19) : 7667-7674.
[35]	Cheng Jing, Mao Beiping, Zheng Rong, et al. Simultaneous determination of 23 preservatives in 8 different matrixes of cosmetics by HPLC-MS/MS[J]. China Surfactant Detergent & Cosmetics, 2018, 48 (12) : 717-724.
[36]	Lamarca R S, Luchiari N C, Bonjorno A F, et al. Determination of formaldehyde in cosmetic products using gas-diffusion microextraction coupled with a smartphone reader[J]. Analytical Methods, 2019, 11 (29) : 3697-3705. doi: 10.1039/C9AY00720B
[37]	Gao Ying, Shi Zeming, Zong Qinxia, et al. Direct determination of mercury in cosmetic samples by isotope dilution inductively coupled plasma mass spectrometry after dissolution with formic acid[J]. Analytica Chimica Acta, 2014, 812: 6-11. doi: 10.1016/j.aca.2014.01.002 pmid: 24491757
[38]	Pan Chen, Wang Meibo, Wu Silin, et al. Determination of five bromine contained preservatives in cosmetics by high performance liquid chromatography-inductively coupled plasma mass spectrometry[J]. Journal of Instrumental Analysis, 2019, 38 (7) : 830-834.
[39]	Tan Aolei, Ma Xiaoxiao. Rapid analysis of additives in cosmetics using antireflection surfaces laser desorption ionization mass spectrometry[J]. Journal of Instrumental Analysis, 2022, 41 (3) : 381-385.
[40]	Zhang Shuai, Gao Lidi, Liang Hui, et al. Simultaneous separation and determination of seven preservatives in cosmetics by high performance capillary electrophoresis[J]. Journal of Instrumental Analysis, 2020, 39 (2) : 258-262.
[41]	Xu Yuan, Ling Bangzan, Yao Dong, et al. Determination of five preservatives in cosmetics by fully automated quantitative micellar electrokinetic capillary chromatography[J]. Journal of Instrumental Analysis, 2015, 34 (6) : 676-680.
[42]	Ma Teng. Ionic liquid dispersive liquid phase microextraction coupled with capillary electrophoresis for the determination of ultraviolet filters and preservatives in cosmetics[D]. Changchun: Journal of Jilin University, 2016.
[43]	Sheng Juan, Zhang Haiyan, Chu Chengding, et al. Simultaneous determination of six parabens in cosmetic products by micellar electrokinetic capillary chromatography[J]. Chinese Journal of Analysis Laboratory, 2013, 32 (11) : 88-92.

序号	标准号	标准名称	测试对象	检测手段	检出限/（mg/kg）
1	GB/T 24800.11－2009	化妆品中防腐剂苯甲醇的测定气相色谱法^[12]	膏霜、乳液、洗发水、染发剂等化妆品	气相色谱法	13
2	GB/T 26517－2011	化妆品中二十四种防腐剂的测定高效液相色谱法^[13]	膏霜、乳液、化妆水等皮肤护理类化妆品	液相色谱法	0.5~100
3	GB/T 29666－2013	化妆品用防腐剂甲基氯异噻唑啉酮和甲基异噻唑啉酮与氯化镁及硝酸镁的混合物^[14]	洗发水、沐浴液、洗面奶等清洁类化妆品	液相色谱法	—
4	GB/T 35800－2018	化妆品中防腐剂己脒定和氯己定及其盐类的测定高效液相色谱法^[15]	水剂、膏霜、香波、散粉和唇膏类化妆品	液相色谱法	20
5	GB/T 35948－2018	化妆品中7种4-羟基苯甲酸酯的测定高效液相色谱法^[16]	膏霜类、乳液类、啫喱类、水类、粉类、蜡基类化妆品	液相色谱法	2
6	GB/T 39993－2021	化妆品中限用防腐剂二甲基噁唑烷、7-乙基双环噁唑烷和5-溴-5-硝基-1,3-二噁烷的测定^[17]	水剂类、水包油类、油包水类化妆品	气相色谱-质谱联用法、液相色谱法	15