Lipstick is the most widely used cosmetic product. Although lipstick gives a lot of social, psychological and therapeutic benefits, it may harm the consumers. Because most lipsticks contained high lead level and long term use of high lead level lipstick may harm the consumers. Research findings have suggested that administration of various antioxidants can prevent or subdue various toxic effects of lead and generation of oxidative stress. Hylocereus polyrhizus (Red dragon fruit) is widely available in Myanmar and it contains powerful antioxidant amaranth colorant called betacyanin pigment. It can prevent the oxidative stress caused by low level of lead, thus suitable as natural colorant for lipstick. As a role of pharmacist, this research was intended to minimize the adverse effects of lipsticks by formulating natural lipstick with betacyanin pigment obtained from H. polyrhizus and other natural ingredients. Formulation of lipstick was carried out by heating and blending method with homogenizer at a speed of 12000 rpm. Then, pH, melting point, surface abnormalities, aging stability, perfume stability and antioxidant activity were performed as quality evaluation. Skin irritation test, microbial analysis and lead content determination were carried out as safety evaluation. Formulated lipsticks with betacyanin pigment of H. polyrhizus have acceptable quality. The IC50 of standard ascorbic acid and formulated lipstick were 4.51 μg/ml and 22.23 μg/ml respectively. In quantitative analysis for microbiological control, formulated lipstick had no visible colony and in qualitative analysis, Staphylococcus aureus, E. coli and Pseudomonas aeruginosa were not detected in 0.5 g of formulated lipsticks. Moreover, lead content of formulated lipstick was only 2.9 ppm that is within allowable limit and it had negligible skin irritancy. Therefore, lipstick with betacyanin pigment of H. polyrhizus can utilize as Cosmeceutical.
References
[1]
Sah, R.C. (2012) Poison Cosmetics: The Problem of Lead in Lipstick in Nepal. Nepal, Centre for Public Health and Environmental Development (CEPHED), 2-6.
[2]
Hashemi-Moghaddam, H., Shiravi, A., Shadab-Shamsabad, F. and Torabi, M. (2014) Disposition of Lead (Pb) in Blood of Rats Following Oral Exposure to Lipstick. E3S Web of Conferences, 1, 12003. https://doi.org/10.1051/e3sconf/20130112003
[3]
Azwanida, N.N., Normasarah, N., and Afandi, A. (2014) Utilization and Evaluation of Betalanin Pigment from Red Dragon Fruit (Hylocereus polyrhizus) as a Natural Colorant for Lipstick. Teknologi Journal, 69, 139-142. https://doi.org/10.11113/jt.v69.3326
[4]
Nurul, S.R. and Asmah, R. (2014) Variability in Nutritional Composition and Phytochemical Properties of Red Pitaya (Hylocereus polyrhizus) from Malaysia and Australia. International Food Research Journal, 21, 1689-1697.
[5]
Swati, D., Manish, S., Sonia, S., Pawankumar, M.K., Khiraj, P. and Ganesh, N. (2013) Formulation and Evaluation of Natural Lipsticks Prepared from Bixa orellana seeds and Beta vulgaris Root Extract and Their Comparative Study. International Journal of Pharmacy and Pharmaceutical Sciences, 5, 68-70.
[6]
Sunil, R., Shekhar, T.C. and Ashutosh, B. (2013) Formulation and Evaluation of a Herbal Lipstick: A New Approach. International Journal of Pharmaceutical Erudition, 3, 26-30.
[7]
Cai, Y. and Corke, H. (1999) Amaranthus Betacyanin Pigments Applied in Model Food Systems. Journal of Food Science, 64, 869-873. https://doi.org/10.1111/j.1365-2621.1999.tb15930.x
[8]
Lee, S., Son, D., Ryu, J., Lee, Y.S., Jung, S.H., Lee, S.Y. and Shin, K.H. (2004) Antioxidant Activities of Acanthopananax senticosus Stems and their Lignan Components. Archives of Pharmacal Research, 27, 106-110. https://doi.org/10.1007/BF02980055
[9]
Uttley, M. and Abbȇ, J.V. (1973) Primary Irritation of the Skin: Mouse Ear Test and Human Patch Test Procedures. Journal of Society of Cosmetic Chemists of Great Britain, 24, 217-227.
[10]
Hitchins, A.D., Tran, T.T. and McCarron, J.E. Bacteriological Analytical Manual: Microbiological Methods for Cosmetics. https://www.fda.gov/food/laboratory-methods-food/bam-chapter-23-methods-cosmetics
[11]
Naderi, N., Ghazali, H.M., Hussin, A.S.M., Amid, M. and Abd-Manap, A.S. (2012) Characterization and Quantification of Dragon Fruit (Hylocereus polyrhizus) Betacyanin Pigments Extracted by Two Procedure. Journal of Tropical Agricultural Sciences, 35, 33-40.
[12]
Health Canada (2012) Guidance on Heavy Metal Impurities in Cosmetics. Retrieved December 18, 2015. 2015/02/Pretty-Scary. https://www.safecosmetics.org/wp-content/uploads/
[13]
Ouremi, O.I. and Ayodele, O.E. (2014) Lipsticks and Nail Polishes: Potential Sources of Heavy Metal in Human Body. International Journal of Pharmaceutical Research and Allied Sciences, 3, 45-51.
[14]
Lwin, T., Oo, K.M., Wai, K.Z., Lwin, C.C. and Chit, K. (2018) Determination of Lead Content in Red Colored Lipsticks from Mandalay Market by Flame Atomic Absorption Spectrophotometer. Myanmar Health Sciences Research Journal, 30, 167-173. http://www.myanmarhsrj.com https://doi.org/10.34299/mhsrj.30.03.0045
