化妆品舒缓功效评价的研究现状

doi:10.3969/j.issn.1001-1803.2023.02.010

摘要/Abstract

摘要：

由于空气污染、紫外辐射、长期佩戴口罩等影响因素，我国敏感性皮肤人群的比例逐渐增加。与正常皮肤相比，敏感性皮肤更易发生皮肤刺激，而舒缓功效化妆品有助于改善皮肤刺激等状态。我国现行法律法规要求对舒缓功效宣称的化妆品进行功效宣称评价，然而，国内外目前尚未建立相应的科学有效的标准评价方法。本文从敏感性皮肤成因出发，阐述了皮肤屏障功能受损、皮肤炎症反应、皮肤神经反应过度及其相互促进累积的敏感皮肤形成机制，为舒缓功效原料及产品开发提供理论依据，并在此基础上调研了化妆品舒缓功效在人体、动物、3D皮肤模型、细胞、生化等不同维度上的评价方法，旨在为建立健全舒缓功效评价体系提供科学依据与理论支撑，从而不断完善符合中国国情并与国际接轨的化妆品监管体系，推动中国化妆品行业持续健康发展。

关键词: 舒缓功效, 化妆品功效评价, 敏感皮肤, 作用机制

Abstract:

In recent years, with the continuous development of the global economy and the gradual improvement of the living standards of residents, consumers have higher and higher requirements on the quantity, quality, safety and efficacy of cosmetics. At the same time, the proportion of people with sensitive skin is gradually increasing due to air pollution, ultraviolet radiation, work and life pressure, irregular diet and rest, and long-term wearing of masks during the epidemic. Compared with normal skin, sensitive skin is more prone to skin irritation and other problems, while soothing cosmetics can help improve the skin tension, dryness, redness, burning, tingling, itching, scale and other adverse skin conditions caused by internal and external factors. China’s current laws and regulations, the Evaluation Criteria for Cosmetic Efficacy claims, clearly require that cosmetics with efficacy claims such as anti wrinkle, firming and soothing should be evaluated for efficacy claims. However, at present, there is no scientific and effective method system related to the evaluation of soothing efficacy at home and abroad, and there is no standard evaluation method for reference in the industry. It is not conducive to the development of raw materials, formulation development and efficacy evaluation of soothing cosmetics, and it is difficult to protect the rights and interests of consumers. Starting from the causes of sensitive skin, this paper expounds the formation mechanism of sensitive skin caused by the impairment of skin barrier function, skin immune inflammatory reaction, skin nerve reaction and their mutual promotion and accumulation, which provides a certain theoretical basis for the development of soothing raw materials and cosmetic products with the functions of repairing skin barrier function, inhibiting skin inflammatory reaction and calming nerves. On this basis, the evaluation methods of the soothing efficacy of cosmetics in different dimensions such as human body, animal, 3D skin model, cell, biochemistry and physicochemistry are also investigated, aiming to provide scientific basis and theoretical support for the establishment and improvement of the soothing efficacy evaluation system. It helps to continuously improve the cosmetics regulatory system that conforms to China’s national conditions and is in line with international standards, protect the rights and interests of consumers, and promote the sustainable and healthy development of China’s cosmetics industry.

Key words: soothing effect, cosmetic efficacy evaluation, sensitive skin, mechanism of action

中图分类号:

TQ658

谭淇丹, 毕永贤, 刘蕾, 胡雪情, 代晓艳. 化妆品舒缓功效评价的研究现状[J]. 日用化学工业（中英文）, 2023, 53(2): 193-201.

Tan Qidan, Bi Yongxian, Liu Lei, Hu Xueqing, Dai Xiaoyan. Research status of cosmetic soothing efficacy evaluation[J]. China Surfactant Detergent & Cosmetics, 2023, 53(2): 193-201.

参考文献 60

[1]	Liu Yuliang, Deng Jing. Present and future of cosmetics in China[J]. Detergent & Cosmetics, 2016, 39 (1):1-8.
[2]	Zhang Xi, Cao Lihua, Zhao Hua, et al. Safety and efficacy evaluation of cosmetics under the new regulations[J]. Detergent & Cosmetics, 2021, 44 (7):1-4.
[3]	Yin Yuexuan, Zhao Hua. Efficacy evaluation of cosmetics (Ⅰ): Scientific support for cosmetic efficacy claims[J]. China Surfactant Detergent ＆ Cosmetics, 2018, 48 (1):8-13.
[4]	Bernstein E T. Cleansing of sensitive skin: with determination of the pH of the skin following use of soap and a soap substitute[J]. Journal of Investigative Dermatology, 1947, 9 (1):5-9. doi: 10.1038/jid.1947.61
[5]	Frosch P J, Kligman A M. A method of apraising the stinging capacity of topically applied substances[J]. Society of Cosmetic Chemists, 1977 (28):197-209.
[6]	Berardesca E, Fluhr J W, Maibach H I. Sensitive skin syndrome[M]. NY, USA: Taylor & Francis: New York, 2006: 281.
[7]	Misery L, Ständer S, Szepietowski J, et al. Definition of sensitive skin: an expert position paper from the special interest group on sensitive skin of the international forum for the study of itch[J]. Acta. Dermato. Venereologica., 2017, 97 (1):4-6. doi: 10.2340/00015555-2397
[8]	Gong Shuhui. Insight into the current situation and product trend of sensitive muscle market in China[J]. Detergent & Cosmetics, 2020, 43 (10):5-7.
[9]	Kern C, Christian G, Alicia R, et al. Soothing effect of virgin coriander seed oil on sensitive skin[J]. OCL, 2020, 27: 49. doi: 10.1051/ocl/2020043
[10]	Misery L, Sibaud V, Merial K C, et al. Sensitive skin in the American population: prevalence, clinical data, and role of the dermatologist[J]. International Journal of Dermatology, 2011, 50 (8):961-967. doi: 10.1111/j.1365-4632.2011.04884.x pmid: 21781068
[11]	Brenaut E, Laurent M, Charles T. Sensitive skin in the indian population: an epidemiological approach[J]. Frontiers in Medicine, 2019, 6 (29):1-5. doi: 10.3389/fmed.2019.00001
[12]	Kim Y R, Cheon H I, Misery L, et al. Sensitive skin in Korean population: an epidemiological approach[J]. Skin Research and Technology, 2018, 24 (2):229-234. doi: 10.1111/srt.12418 pmid: 29067709
[13]	Misery l, Jourdan E, Huet F, et al. Sensitive skin in France: a study on prevalence, relationship with age and skin type and impact on quality of life[J]. Journal of the European Academy of Dermatology and Venereology, 2018, 32 (5):791-795. doi: 10.1111/jdv.14837 pmid: 29397030
[14]	Xiao Xiaoqing, Qiao Liyuan, Ye Rui, et al. Nationwide survey and identification of potential stress factor in sensitive skin of Chinese women[J]. Clinical Cosmetic and Investigational Dermatology, 2020, 13: 867-874. doi: 10.2147/CCID.S284359
[15]	Brenaut E, Barnetche T, Le Gall Ianotto C, et al. Triggering factors in sensitive skin from the worldwide patients’ point of view: a systematic literature review and meta‐analysis[J]. Journal of the European Academy of Dermatology and Venereology, 2020, 34 (2):230-238. doi: 10.1111/jdv.15985 pmid: 31571336
[16]	Liao Qian, Yu Chunshui, Wang Hanwen. Progress in the study of differentiation proteins in the skin barrier[J]. Journal of Practical Dermatology, 2017, 10 (6):354-356.
[17]	Scholz G M, Sulaiman N S, Baiiaty S A, et al. A novel regulatory relationship between RIPK4 and ELF3 in keratinocytes[J]. Cellular Signalling, 2016, 28 (12):1916-1922. doi: S0898-6568(16)30232-7 pmid: 27667567
[18]	Sur I, Ulvmar M, Toftgard R. The two-faced NF-kappaB in the skin[J]. International Reviews of Immunology, 2008, 27: 205-223. doi: 10.1080/08830180802130319 pmid: 18574737
[19]	Fan Linna. Research on characteristics indices of sensitive skin and evaluation methods of anti-sensitivity activity[D]. Beijing: Beijing Technology and Business University, 2016.
[20]	Shibata T, Takahashi K, Matsubara Y. 15-deoxy-Δ^12,14-prostaglandin J₂ as a potential TRPV1-dependent atopic dermatitis enhancer[J]. Free Radical Biology and Medicine, 2014, 75: 49.
[21]	Zhao Yunshan, Jiang Yueming, Lu Wenjia, et al. Study on the skin soothing and skin repair effects of Pogostemon cablin leaf extract[J]. China Surfactant Detergent ＆ Cosmetics, 2022, 52 (8):833-838.
[22]	Yu Mingying, Xu Xian, Ren Lu, et al. Review on the formation mechanism of sensitive skin and anti-sensitive ingredients[J]. Detergent & Cosmetics, 2021, 44 (6):32-37.
[23]	Pan Xuen, Lu Zhangshun, Yang Guang, et al. Application of alternative tests of skin corrosion and irritation for chemical hazard classification[J]. Chinese Journal of Comparative Medicine, 2021, 31 (10):99-106.
[24]	Jiang Ligang. Common cosmetic efficacy evaluation methods[J]. China Medical Journal, 2020.
[25]	Liu Shu. Brief analysis on the regulation of cosmetic efficacy declaration in China[J]. Detergent & Cosmetics, 2019, 42 (1):22-25.
[26]	Li Xiao, Zhang Xiaoe, Lu Yongbo, et al. Efficacy evaluation of cosmetics (Ⅷ): The application of 3D reconstructed skin models in the evaluation of cosmetic efficacy[J]. China Surfactant Detergent ＆ Cosmetics, 2018, 48 (9):489-494.
[27]	Chen Yafei, Yu Hanmou, Jiang Xingtao, et al. Evaluation methods for efficacy of skin moisturizing agents[J]. China Surfactant Detergent ＆ Cosmetics, 2015, 38 (12):27-30.
[28]	Zeng Weicai, Shi Bi. Common methods of antioxidant activity evaluation for natural products:A review[J]. Chemical Industry and Engineering Progress, 2013, 32 (6):1205-1213, 1247.
[29]	Liu Yang, Lu Tao, Zhou Zhoulin, et al. Study on feasibility of HaCaT epidermal model as an alternative to skin irritation in vitro[J]. Chinese Journal of Reparative and Reconstructive Surgery, 2017, 31 (10):1262-1266. doi: 10.7507/1002-1892.201705031 pmid: 29806332
[30]	Nguyen L T H, Nguyen U T, Kim Y H, et al. Astragali radix and its compound formononetin ameliorate diesel particulate matter-induced skin barrier disruption by regulation of keratinocyte proliferation and apoptosis[J]. Journal of Ethnopharmacology, 2019, 228: 132-141. doi: S0378-8741(18)32594-7 pmid: 30243826
[31]	Zhang Yi, Shen Xucheng, Xie Zhimin, et al. Effects of 1,8-cineole on expression of aquaporin 3 and hyaluronan in HaCaT cells[J]. Journal of Clinical Dermatology, 2021, 50 (2):76-80.
[32]	Kim E H, Moon Y L, Jang Y A. Skin moisturizing properties and anti-inflammatory effects of extracts from Coptis chinensis in HaCaT cells[J]. Journal of the Korean Applied Science and Technology, 2021.
[33]	Liao Zhengzheng, Nie Jing, Sun Peiwen. The impact of particulate matter (PM2.5) on skin barrier revealed by transcriptome analysis: focusing on cholesterol metabolism[J]. Toxicology Reports, 2020, 7: 1-9. doi: 10.1016/j.toxrep.2019.11.014 pmid: 31867221
[34]	He Dan. Partial experimental study on the relationship between spleen deficiency and skin mechanical barrier function[D]. Chengdu: Chengdu University of Traditional Chinese Medicine, 2008.
[35]	Zhang Jingxia, Li Zhaojun. Research progress in role of AQP3 in pathogenesis of skin diseases[J]. Medical Recapitulate, 2013, 19 (17):3101-3103.
[36]	Wang Huan, Pan Yao. Efficacy evaluation of cosmetics (Ⅴ): Scientific support for soothing skin efficacy claims[J]. China Surfactant Detergent ＆ Cosmetics, 2018, 48 (5):247-254.
[37]	Liu Xiang, Li Miaomiao, Huang Yingyu. The effect of initial tender skin mask with microneedle therapy on the sensitive skin barrier function[J]. China Medical Cosmetology, 2020, 10 (6):60-63.
[38]	Wang Qian, Li Yong, Xian Yan, et al. Preliminary observation on the effect of repairing cream containing Tibetan thermal spring water on sensitive skin[J]. Chinese Journal of Aesthetic Medicine, 2020, 29 (8):49-52.
[39]	Huang Danyun, Li Zhijun, Chen Yue, et al. Paeoniflorin reduces the inflammatory response of THP-1 cells by up‐regulating microRNA-124[J]. Genes & Genomics, 2021, 43 (6):623-631.
[40]	Ma Yuchen, Liu Lei, He Congfen. Types, characteristics and application of the skin cells used in cosmetic efficacy evaluation[J]. China Surfactant Detergent & Cosmetics, 2021, 51 (1):50-55.
[41]	Huang Qiuyang. PM2.5 disrupts autophagy flow through TLR4 and aggravates the inflammatory response of RAW264.7 macrophages[D]. Luzhou: Southwest Medical University, 2022.
[42]	Wei Jing, Sun Peidong. Extracts of Chinese herbal medicines on inhibiting expression of inflammatory cytokines of THP-1 cells induced by Propionibacterium acnes[J]. Chinese Traditional Patent Medicine, 2020, 42 (12):3166-3172.
[43]	Kim D, Hu R, Fan Y, et al. Photoprotective effects of 2S,3R-6-methoxycarbonylgallocatechin isolated from Anhua dark tea on UVB-induced inflammatory responses in human keratinocytes[J]. Journal of Photochemistry & Photobiology, 2022, 202: 111704.
[44]	Ahn J E, Kim H E, Chung D K. Lipoteichoic acid isolated from lactobacillus plantarum maintains Inflammatory homeostasis through regulation of Th1- and Th2- induced cytokines[J]. Journal of Microbiology and Biotechnology, 2019, 29 (1):151-159. doi: 10.4014/jmb.1809.09001
[45]	Palsson-McDermott E M, O’Neill L A J. Signal transduction by the lipopolysaccharide receptor, Toll-like receptor-4[J]. Immunology, 2004, 113 (2):153-162. doi: 10.1111/j.1365-2567.2004.01976.x
[46]	Li Xuezhong, Bai Longmei, Yang Yaping, et al. Astrocytes administrated with LPS had a dual effect on the growth of PC12 by IL-6[J]. Chinese Journal of Clinical Neurosciences, 2008 (1):18-23.
[47]	Kim C, Ji J, Ho B S, et al. Fermented dried Citrus unshiu peel extracts exert anti-inflammatory activities in LPS-induced RAW264.7 macrophages and improve skin moisturizing efficacy in immortalized human HaCaT keratinocytes[J]. Pharmaceutical Biology, 2019, 57 (1):392-402. doi: 10.1080/13880209.2019.1621353
[48]	Kong Xue, Zhao Hua, Tang Ying. Progress in field of research work for application of human-skin models in efficacy evaluation of cosmetics[J]. China Surfactant Detergent ＆ Cosmetics, 2017, 47 (4):228-231.
[49]	Du Junxia, Gong Binbin, Song Fei, et al. Anti-inflammatory and analgesic effects of Lycium barbarum polysaccharides[J]. Natural Product Research and Development, 2019, 31 (2):236-239.
[50]	Li Peng, Gao Ying, Yao Peng. The clinical effects of CMN soothing repair concentrate solution combined with Tacrolimus in the treatment of facial recurrent dermatitis[J]. Genomics and Applied Biology, 2018, 37 (12):5538-5543.
[51]	Scandolera A, Hubert J, Humeau A, et al. GABA and GABA-alanine from the red microalgae rhodosorus marinus exhibit a significant neuro-soothing activity through inhibition of neuro-inflammation mediators and positive regulation of TRPV1-related skin sensitization[J]. Marine Drugs, 2018, 16 (3):96. doi: 10.3390/md16030096
[52]	Yin Qingfei, Chen Yuanqi, Guo Yiguang, et al. Construction of TRPV1 receptor stable transgenic cell line and evaluation of pain induced by cosmetic raw materials[J]. Journal of Toxicology, 2021, 35 (3):255-261.
[53]	Wang Tao, Liang Richu, Zhou Jia, et al. TRIM31 overexpression improved neurocellular inflammatory injury induced by lipopolysaccharide[J]. Chinese Journal of Immunology, 2020, 36 (16):1935-1940.
[54]	Puntambekar P, Mukherjea D, Jajoo S, et al. Essential role of Rac1/NADPH oxidase in nerve growth factor induction of TRPV1 expression[J]. Journal of Neurochemistry, 2005, 95 (6):1689-1703. pmid: 16283857
[55]	Labarrade F, Perrin A, Ferreira Y, et al. Soothing effect of Pogostemon cablin extract (patchouli), via cannabinoid receptor 2 modulation in human skin[J]. Journal of Cosmetic Science, 2020, 71 (6):425-437. pmid: 33413786
[56]	Song Chengcheng. Transient receptor potential subtype V1 modulate microglial in the mechanism of remifentanil-induced hyperalgesia[D]. Tianjin: Tianjin Medical University, 2017.
[57]	Xin Juanjuan, Su Yangshuai, Yang Zhaokun, et al. Effects of electroacupuncture and moxibustion like stimulation with different intensities on pain threshold of vanillic acid transient receptor subtype 1 gene knockout mice[J]. Acupuncture Research, 2012, 37 (6):431-439. pmid: 23383450
[58]	Liu Zhenhong, Gao Wei, et al. Effect of Genkwa Flos on transient receptor potential vanilloid 1 of thermosensitive channel[J]. Chinese Journal of Experimental Traditional Medical Formulae, 2019, 25 (20):56-62.
[59]	Hua Lu, Guo Yang, Ma Li, et al. Pregabalin relieves neuropathic pain by inhibiting TRPV1[J]. The Journal of Practical Medicine, 2020, 36 (6):729-734.
[60]	He Yifan, Sun Lili. Evaluation method for efficacy of cosmetics in relieving skin sensitivity[J]. China Medical Journal, 2020.