(74) E. Touitou and L. Bergelson, Products for Preventing Penetration into the Skin, Patent EP1427386B1 (2002). (75) S. Kaul, N. Gulati, D. Verma, S. Mukherjee, and U. Nagaich, Role of nanotechnology in cosmeceuti- cals, a review of recent advances, J. Pharm., 3420204 (2018). (76) E. Gilbert, L. Roussel, C. Serre, R., Sandouk, D., Salmon, P. Kirilov, M. Haftek, F. Falson, and F. Pirot, Percutaneous absorption of benzophenone-3 loaded lipid nanoparticles and polymeric nanocapsules, a comparative study, Int. J. Pharm., 504, 48–58 (2016). (77) S. Scalia, S. Battaglioli, and A. Bianchi, In vivo human skin penetration of the UV fi lter ethylhexyl triazone: effect of lipid microparticle encapsulation, Skin Pharmacol. Physiol., 22–31 (2018). (78) J. C. Marcato, B. Rossi-Bergmann, E. F. Pinto, D. Machado, R. A. Silva, G. Z. Justo, C. V. Ferreria, and N. Duran, Nanostructured polymer and lipid carriers for sunscreen. Biological effects and skin permeation, J. Nanosci. Nanotechnol., 11, 1880–1886 (2011). (79) B. Luppi, T. Cerchiara,F. Bigucci, R. Basile, and V. Zecchi, Polymeric nanoparticles composed of fatty ac- ids and polyvinylalcohol for topical application of sunscreens, J. Pharm. Pharmacol., 56(3), 407–411 (2004). (80) L. R. Gaspar and P. M. Maia Campos, Evaluation of the photostability of different uv fi lter combinations in a sunscreen, Int. J. Pharm., 307, 123–128 (2006). (81) A. L. M. Daneluti, F. M. Neto, N. Ruscinc, I. Lopes, M. V. Robles Velasco, J. Do Rosário Matos, A. R. Baby, and Y. N. Kalia, Using ordered mesoporous silica SBA-15 to limit cutaneous penetration and transdermal permeation of organic UV fi lters, Int. J. Pharm., 570,118633 (2019). JOURNAL OF COSMETIC SCIENCE 324
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