BACKGROUND: Microfine zinc oxide and microfine titanium dioxide are particulate sunscreen ingredients that absorb broad-spectrum ultraviolet (UV) irradiation. OBJECTIVE: We compare microfine zinc oxide and microfine titanium dioxide for their abilities to attenuate UVA radiation and their relative whiteness in cosmetic formulations. METHODS: UVA attenuation was measured by diffuse reflectance spectroscopy on normal human skin in vivo. Whiteness was determined by reflectance density of dried coatings on a black background of the two particulates at varying concentrations. RESULTS: Microfine zinc oxide demonstrates superior protection compared to microfine titanium dioxide in the UV spectrum between 340 and 380 nm. Microfine zinc oxide is less white than titanium dioxide at all concentrations. CONCLUSION: Microfine zinc oxide is superior to microfine titanium dioxide as a sunscreen ingredient. It is more protective against long-wave UVA and is less white at a given concentration.
BACKGROUND:Microfine zinc oxide and microfinetitanium dioxide are particulate sunscreen ingredients that absorb broad-spectrum ultraviolet (UV) irradiation. OBJECTIVE: We compare microfine zinc oxide and microfinetitanium dioxide for their abilities to attenuate UVA radiation and their relative whiteness in cosmetic formulations. METHODS: UVA attenuation was measured by diffuse reflectance spectroscopy on normal human skin in vivo. Whiteness was determined by reflectance density of dried coatings on a black background of the two particulates at varying concentrations. RESULTS:Microfine zinc oxide demonstrates superior protection compared to microfinetitanium dioxide in the UV spectrum between 340 and 380 nm. Microfine zinc oxide is less white than titanium dioxide at all concentrations. CONCLUSION:Microfine zinc oxide is superior to microfinetitanium dioxide as a sunscreen ingredient. It is more protective against long-wave UVA and is less white at a given concentration.
Authors: Krista M Cosert; Soohyun Kim; Iman Jalilian; Maggie Chang; Brooke L Gates; Kent E Pinkerton; Laura S Van Winkle; Vijay Krishna Raghunathan; Brian C Leonard; Sara M Thomasy Journal: Pharmaceutics Date: 2022-05-03 Impact factor: 6.525