Influence of particle size on appearance and in vitro efficacy of sunscreens

Authors

  • Débora Granemann e Silva University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Fernanda Daud Sarruf University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Larissa Carolina Diniz de Oliveira University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Elizabeth Pinheiro Gomes Arêas University of São Paulo; Institute of Chemistry; Department of Fundamental Chemistry
  • Telma Mary Kaneko University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Vladi Olga Consiglieri University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • Maria Valéria Robles Velasco University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy
  • André Rolim Baby University of São Paulo; Faculty of Pharmaceutical Sciences; Department of Pharmacy

DOI:

https://doi.org/10.1590/S1984-82502013000200007

Keywords:

Nanoemulsion, PIT method, Benzophenone-3, Ethylhexyl methoxycinnamate

Abstract

Nanotechnology applies to diverse sectors of science. In cosmetic area, investments have strengthened the idea that nanoproducts provide innumerable benefits to consumers. Extreme exposition to solar light can cause undesirable effects, thus, adding UV filters in cosmetic products are often used as prevention. Ethylhexyl methoxycinnamate and benzophenone-3 are UV filters widely used in sunscreen formulations, this UV filters absorb UVB and UVA radiation, respectively. In this study, sunscreen formulations were developed as nano and macroemulsion, but composed by the same raw material. Nanoemulsion was obtained by phase inversion temperature method (PIT). Physical and functional properties were evaluated by visual analysis, particle size distribution and by diffuse reflectance spectrophotometry. Achieved nanoemulsion showed bluish brightness aspect, less apparent consistency than macroemulsion, stability longer than 48 hours (22.0 ± 2.0 °C) and bimodal particle size distribution with average (mean) sizes around 10 nm (61%) and 4.5 µm (39%). Macroemulsion showed milky aspect, higher consistency than nanoemulsion, instability after 48 hours (22.0 ± 2.0 °C) and bimodal particle size distribution with average (mean) size around 202 nm (9%) and 10.4 µm (91%). Effectiveness profile of sunscreen formulations remained apparently similar, based on achieved results of in vitro SPF, UVA/UVB ratio and critical wavelength assays.

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Published

2013-06-01

Issue

Vol. 49 No. 2 (2013)

Section

Articles

License

All content of the journal, except where identified, is licensed under a Creative Commons attribution-type BY.

The on line journal has open and free access.

How to Cite

Influence of particle size on appearance and in vitro efficacy of sunscreens . (2013). Brazilian Journal of Pharmaceutical Sciences, 49(2), 251-261. https://doi.org/10.1590/S1984-82502013000200007