Evaluation of in vivo safety of ultraviolet filters in sunscreen formulation

Due to the destruction of the ozone layer by pollution, the incidence of ultraviolet radiation on Earth has enlarged and, consequently, the number of cases of skin cancer has increased even more. Several studies have shown that the damages caused by solar radiation to the skin are usually caused by free radical generation and activation of inflammatory mediators. Several studies have concluded that sunscreens are able to penetrate the skin and act as sources of formation of reactive oxygen species (ROS) under ultraviolet radiation exposition, leading, therefore, to the concern regarding the possibility of sunscreen molecules generate ROS instead of preventing the formation of these species by blocking sunlight. Thus, the aim of this study was to evaluate the effects of benzophenone-3 (3-BZ), octylmethoxycinnamate (OMC) and octyl salicylate (OS) sunscreens in the skin of hairless mice exposed or not to UVB radiation. Furthermore, the sunscreen skin retention was in vitro assessed using pig ear skin in diffusion cells and in vivo assessed using hairless mice. The results demonstrated that the cream gel rendered higher epidermal concentrations of the evaluated filters compared to the lotion and cream formulations. Comparing the skin retention amounts of each filter in the same formulation, 3-BZ showed higher skin retention ability than OMC and OS. In addition, all sunscreens penetrated the skin of hairless mice after 1 hour of the applied gel cream formulation, which guaranteed the presence of sunscreen in the dermis plus epidermis at the time of UVB exposure. The formulation of sunscreens prevented by 76% the GSH depletion induced by UVB radiation. However, the treatment of the animals with the sunscreens loaded-formulation was not able to inhibit the increase of metalloproteinase-9 and myeloperoxidase activities induced by radiation. Furthermore, the use of sunscreens loaded-formulation in combination with UVB radiation exposition caused the decrease in the amounts of the superoxide dismutase antioxidant enzyme present in skin. Thus, considering the parameters evaluated in this study, the sunscreens loaded-formulation does not seem to effectively protect skin against damages caused by UVB radiation as it was supposed to. Moreover, these filters seem to be unstable against the radiation and thus compromising their efficacy and safety. (AU)