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http://dx.doi.org/10.5487/TR.2019.35.4.389

Study on Consumer Exposure to Sun Spray and Sun Cream in South Korea  

Oh, Mihyun (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
Kim, Seoyoung (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
Han, Jieun (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
Park, Sodam (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
Kim, Go Un (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
An, Susun (Safety & Regulatory Research Division, AmorePacific Corporation R&D Center)
Publication Information
Toxicological Research / v.35, no.4, 2019 , pp. 389-394 More about this Journal
Abstract
When conducting risk assessments of cosmetic ingredients, it is important that reliable exposure information is obtained for cosmetic products. As cosmetics are becoming more diverse, continuous effort must be made to obtain exposure data that reflect their growth and usage trends. The usage pattern of cosmetics, such as the application area and amount used, may differ by product type and also by country. We conducted a survey to compare the amount of sun spray and sun cream used in a usage environment in South Korea. The study was conducted on Haeundae Beach, one of the most popular beaches in South Korea. A total of 1,255 beachgoers participated in this study; 604 and 651 participants used the sun spray and sun cream, respectively, while sunbathing and enjoying water activities on the beach for one day. Exposure was analyzed following a probabilistic method. On comparing all subjects, it was found that the group that used sun spray (mean: 44.52 g/day) used significantly more product (p = 0.000) than those who used sun cream (mean: 20.51 g/day). By analyzing the daily exposure of sun spray and sun cream per unit body weight according to age and gender, the exposure amount of sun spray and sun cream was found to be highest among 2~9 year-old girls (mean for sun spray: 2.51 g/kg/day, p95: 5.50 g/kg/day, mean for sun cream: 0.79 g/kg/day, p95: 1.79 g/kg/day). The amount of sun spray used is approximately twice that of sun cream. Among both the sun spray and sun cream groups, the exposure amount per unit body weight was highest in girls younger than 10. These factors should be considered when conducting risk assessments of sun spray and sun cream.
Keywords
Sun spray; Sun cream; Consumer Exposure amount; South Korea; Beach;
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1 Hall, B., Tozer, S., Safford, B., Coroama, M., Steiling, W., Leneveu-Duchemin, M.C., McNamara, C. and Gibney, M. (2007) European consumer exposure to cosmetic products, a framework for conducting population exposure assessments. Food Chem. Toxicol., 45, 2097-2108.   DOI
2 McNamara, C., Rohan, D., Golden, D., Gibney, M., Hall, B., Tozer, S., Safford, B., Coroama, M., Leneveu-Duchemin, M.C. and Steiling, W. (2007) Probabilistic modelling of European consumer exposure to cosmetic products. Food Chem. Toxicol., 45, 2086-2096.   DOI
3 Hall, B., Steiling, W., Safford, B., Coroama, M., Tozer, S., Firmani, C., McNamara, C. and Gibney, M. (2011) European consumer exposure to cosmetic products, a framework for conducting population exposure assessments Part 2. Food Chem. Toxicol., 49, 408-422.   DOI
4 Loretz, L., Api, A.M., Barraj, L., Burdick, J., Davis de, A., Dressler, W., Gilberti, E., Jarrett, G., Mann, S., Laurie Pan, Y.H., Re, T., Renskers, K., Scrafford, C. and Vater, S. (2006) Exposure data for personal care products: hairspray, spray perfume, liquid foundation, shampoo, body wash, and solid antiperspirant. Food Chem. Toxicol., 44, 2008-2018.   DOI
5 Loretz, L.J., Api, A.M., Babcock, L., Barraj, L.M., Burdick, J., Cater, K.C., Jarrett, G., Mann, S., Pan, Y.H., Re, T.A., Renskers, K.J. and Scrafford, C.G. (2008) Exposure data for cosmetic products: facial cleanser, hair conditioner, and eye shadow. Food Chem. Toxicol., 46, 1516-1524.   DOI
6 Gottlieb, A., Bourget, T.D. and Lowe, N.J. (1997) Sunscreens: effects of amounts of application of sun protection factors. Cosmet. Sci. Technol. Ser., 15, 583-588.
7 Autier, P., Boniol, M., Severi, G. and Dore, J.F.; European Organization for Research and Treatment of Cancer Melanoma Co-operative Group (2001) Quantity of sunscreen used by European students. Br. J. Dermatol., 144, 288-291.   DOI
8 Autier, P., Boniol, M. and Dore, J.F. (2007) Sunscreen use and increased duration of intentional sun exposure: still a burning issue. Int. J. Cancer, 121, 1-5.   DOI
9 Stenberg, C. and Larko, O. (1985) Sunscreen application and its importance for the sun protection factor. Arch. Dermatol., 121, 1400-1402.   DOI
10 Bech-Thomsen, N. and Wulf, H.C. (1992) Sunbathers' application of sunscreen is probably inadequate to obtain the sun protection factor assigned to the preparation. Photodermatol. Photoimmunol. Photomed., 9, 242-244.
11 Diffey, B. (1996) Sunscreens, suntans and skin cancer. People do not apply enough sunscreen for protection. BMJ, 313, 942.   DOI
12 Rothe, H., Fautz, R., Gerber, E., Neumann, L., Rettinger, K., Schuh, W. and Gronewold, C. (2011) Special aspects of cosmetic spray safety evaluations: principles on inhalation risk assessment. Toxicol. Lett., 205, 97-104.   DOI
13 Steiling, W., Bascompta, M., Carthew, P., Catalano, G., Corea, N., D'Haese, A., Jackson, P., Kromidas, L., Meurice, P., Rothe, H. and Singal, M. (2014) Principle considerations for the risk assessment of sprayed consumer products. Toxicol. Lett., 227, 41-49.   DOI
14 SCCS (2015) The SCCS Notes of Guidance for the Testing of Cosmetic Ingredients and their Safety Evaluation (9th revision).
15 Ficheux, A.S., Chevillotte, G., Wesolek, N., Morisset, T., Dornic, N., Bernard, A., Bertho, A., Romanet, A., Leroy, L., Mercat, A.C., Creusot, T., Simon, E. and Roudot, A.C. (2016) Consumption of cosmetic products by the French population second part: amount data. Food Chem. Toxicol., 90, 130-141.   DOI
16 Lee, E., Yun, J., Ha, J., Park, B.C., Park, G.H., Kim, H.R., Hong, S.P., Kim, K.B. and Kim, M.H. (2017) Assessment of exposure for baby cosmetic care products in a Korean population. Food Chem. Toxicol., 106, 107-113.   DOI
17 Manova, E., von Goetz, N. and Hungerbuehler, K. (2015) Aggregate consumer exposure to UV filter ethylhexyl methoxycinnamate via personal care products. Environ. Int., 74, 249-257.   DOI