从咖啡工业废料中提取的二氧化钛型复合咖啡油对防晒产品性能的影响

B. G. Chiari-Andréo, J. Marto, A. Ascenso, C. Carneiro, L. Rodríguez, Antonio José Guillot, T. Garrigues, H. Ribeiro, A. Melero, V. Isaac
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引用次数: 1

摘要

(1)背景:二氧化钛(TiO2)由锐钛矿、金红石和板红石三种多晶岩组成。本工作旨在阐明金红石和锐钛矿形式对用农业食品工业中丢弃的咖啡豆中的绿咖啡油(GCO)配制的防晒霜性能的影响。(2)方法:从粒径和润湿性两方面对TiO2颗粒进行表征。对GCO配制的防晒霜进行了粒径、流变性、质构分析(TPA)、体外防晒系数和抗水保持性等方面的表征。局部给药和渗透研究证实了咖啡因的释放和皮肤渗透。(3)结果:金红石型和锐钛矿型TiO2颗粒的粒径分布相似,但与金红石型相比,锐钛矿型和GCO型的TiO2颗粒粒径更小,粘度降低,触变性增加。尽管如此,所有配方都表现出线性粘弹性行为。对于TPA,主要通过GCO而不是TiO2形式改善了广泛的机械性能。在没有GCO的情况下,TiO2形态对紫外线防护的影响得到了更好的证明。含有GCO的防晒霜配方表现出良好的局部递送,证实了咖啡因的释放和渗透。(4)结论:与GCO结合的两种TiO2形态均具有良好的性能,包括有效的紫外线防护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Impact of Titanium Dioxide Type Combined with Coffee Oil Obtained from Coffee Industry Waste on Sunscreen Product Performance
(1) Background: Titanium dioxide (TiO2) consists of three polymorphs, including anatase, rutile and brookite. This work aimed to elucidate the influence of rutile and anatase forms in the performance of sunscreens formulated with green coffee oil (GCO) from coffee beans discarded in the agri-food industry. (2) Methods: TiO2 particles were characterized in terms of size and wettability. The sunscreens formulated with GCO were characterized regarding the droplet size, rheology, texture profile analysis (TPA), in vitro Sun Protection Factor and Water Resistance Retention. Topical delivery and permeation studies were performed to confirm caffeine release and skin penetration. (3) Results: Particle size distributions of rutile and anatase TiO2 particles were similar, however, smaller droplets as well as decreased viscosity and increased thixotropy were obtained for anatase TiO2 and GCO formulation compared to rutile form formulations. Notwithstanding, all formulations exhibited linear viscoelastic behavior. Regarding the TPA, a wide range of mechanical properties improved mainly by GCO rather than TiO2 form has been demonstrated. The influence of TiO2 form on UV protection was better evidenced in absence of GCO. The sunscreen formulations containing GCO presented a favorable topical delivery as confirmed by caffeine release and permeation. (4) Conclusions: Both TiO2 forms combined with GCO provided suitable properties including an effective ultraviolet (UV)-light protection.
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