The Formula for Best Sunscreen Performance: Beer-Lambert's Law Under the Microscope.

Current problems in dermatology Pub Date : 2021-01-01 Epub Date: 2021-10-25 DOI:10.1159/000517663
Bernd Herzog, Myriam Sohn
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引用次数: 3

Abstract

Sunscreens used for the protection of human skin work by attenuating the potentially harmful solar UV radiation. In recent years, the quantitative understanding of this attenuating effect has grown tremendously, enabling model calculations of sunscreen performance. Such calculations are based on the simulation of the UV transmission of the sunscreen film applied on human skin. However, there are 2 prerequisites assumed to hold. The first prerequisite is the applicability of the Beer-Lambert law for sunscreen films, and the second is that the thickness variation of the sunscreen film can be described with a gamma distribution of film heights. There is strong evidence from recent experimental work that both assumptions are correct. For several applications, calculations of sunscreen performance have been shown to be useful, for instance, in the design of new sunscreen formulations aiming for a certain sun protection factor or other characteristics, prediction of pre-vitamin D production in the skin in the presence of sunscreen, in vitro measurement of water resistance, and assessment of the ecotoxicological profile of a sunscreen formulation or the influence of oil polarity on UV-filter absorbance and the consequence for sunscreen performance.

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最佳防晒配方:显微镜下的比尔-朗伯定律。
用于保护人体皮肤的防晒霜通过减弱潜在的有害太阳紫外线辐射来起作用。近年来,对这种衰减效应的定量理解已经大大增加,使防晒性能的模型计算成为可能。这样的计算是基于对涂抹在人体皮肤上的防晒膜的紫外线透射的模拟。然而,假设有两个先决条件是成立的。第一个先决条件是比尔-朗伯定律对防晒膜的适用性,第二个先决条件是防晒膜的厚度变化可以用膜高的伽马分布来描述。最近的实验工作有力地证明,这两种假设都是正确的。在一些应用中,对防晒霜性能的计算已被证明是有用的,例如,在设计新的防晒霜配方时,旨在达到某种防晒系数或其他特性,预测防晒霜存在时皮肤中维生素D前的生成,体外抗水性测量,以及评估防晒霜配方的生态毒理学特征或油极性对紫外线过滤器吸光度的影响及其对防晒霜性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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