Purpose Oxybenzone is an organic ultraviolet absorbent commonly used as photoprotection agent in cosmetic formulations. Unfortunately, it shows safety problems because of its potential systemic absorption and skin photosensibilization. Thus, a new particulate carrier is proposed with the aim of solving these problems. Methods Oxybenzone (OXY) was loaded into the mesopores of the silicate MCM-41 and the obtained particulate carrier (MCM-41-OXY) was mixed with melt tristearin or stearyl alcohol with the aim of plugging the MCM-41 mesopores and thus entrapped OXY inside the pores. These particles were characterized and incorporated in an emulgel. OXY release from these formulations was evaluated in vitro and was compared with those from emulgels containing free OXY and unplugged MCM-41-OXY. The photoprotection range of the hybrid materials was also investigated through spectrophotometric measurements. Results As concerns with UVabsorption properties, it can be observed that the spectrum of the neat compound appears broader than those recorded for lipid/silicate particles and MCM-41-OXY, but MCM-41-OXY with tristearin presents a higher absorption intensity in UVA, UVB, and UVC regions, maintaining thus excellent photoprotection effects. Besides this aspect, the pore occlusion by means of the lipid ingredients offers a proper obstacle to sunscreen release, thus preventing the contact between the sunscreen and the skin and consequently both systemic absorption and cutaneous adverse reactions. Conclusions The new lipid/MCM-41 particles appear to be promising candidates to formulate sunscreen preparations.

Oxybenzone Entrapped in Mesoporous Silicate MCM-41

AMBROGI, Valeria;LATTERINI, Loredana;MARMOTTINI, Fabio;TIRALTI, Maria Cristina;RICCI, Maurizio
2013

Abstract

Purpose Oxybenzone is an organic ultraviolet absorbent commonly used as photoprotection agent in cosmetic formulations. Unfortunately, it shows safety problems because of its potential systemic absorption and skin photosensibilization. Thus, a new particulate carrier is proposed with the aim of solving these problems. Methods Oxybenzone (OXY) was loaded into the mesopores of the silicate MCM-41 and the obtained particulate carrier (MCM-41-OXY) was mixed with melt tristearin or stearyl alcohol with the aim of plugging the MCM-41 mesopores and thus entrapped OXY inside the pores. These particles were characterized and incorporated in an emulgel. OXY release from these formulations was evaluated in vitro and was compared with those from emulgels containing free OXY and unplugged MCM-41-OXY. The photoprotection range of the hybrid materials was also investigated through spectrophotometric measurements. Results As concerns with UVabsorption properties, it can be observed that the spectrum of the neat compound appears broader than those recorded for lipid/silicate particles and MCM-41-OXY, but MCM-41-OXY with tristearin presents a higher absorption intensity in UVA, UVB, and UVC regions, maintaining thus excellent photoprotection effects. Besides this aspect, the pore occlusion by means of the lipid ingredients offers a proper obstacle to sunscreen release, thus preventing the contact between the sunscreen and the skin and consequently both systemic absorption and cutaneous adverse reactions. Conclusions The new lipid/MCM-41 particles appear to be promising candidates to formulate sunscreen preparations.
2013
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1174680
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