局部酸性产品的配方和皮肤的酸化——乙醇酸的贡献。

Formulation of topical acidic products and acidification of the skin - Contribution of glycolic acid.

机构信息

Department of Pharmaceutical Technology and Cosmetology, Faculty of Pharmacy, University of Belgrade, Belgrade, Serbia.

Academy for Applied Studies Belgrade, College of Health Sciences, Belgrade, Serbia.

出版信息

Int J Cosmet Sci. 2021 Aug;43(4):419-431. doi: 10.1111/ics.12707. Epub 2021 Jun 2.

DOI:10.1111/ics.12707

PMID:33864274

Abstract

OBJECTIVE

The acidic skin pH is one of the regulating factors of skin barrier homeostasis. Topical products as extrinsic factors which influence skin pH could be used for acidification of the skin and consequent beneficial effect. To formulate stabile and safe topical emulsion product with low pH is on-going challenge and areas interesting to explore are related to the effect of acidic products on the skin pH together with development of protocols for these studies. Aim of our work was to investigate formulations of acidic topical products with glycolic acid (GA) stabilized with long chain alkyl polyglucoside emulsifier, in regard to the specific colloidal structure of the vehicle, together with effect of products with different concentration of acidic active on skin pH.

METHODS

Investigated formulations were basic vehicle and two creams with glycolic acid (concentration 2 and 10 wt%). Microstructure was investigated by polarization microscopy, Raman spectral imaging, thermal analysis and rheological measurements. Effects on the skin were assessed by measurement of biophysical skin parameters in vivo studies (5-hour, 24-hour and 7-days). In vitro screening of antimicrobial activity was performed against bacteria Staphylococcus epidermidis.

RESULTS

Polarization micrographs and Raman images have shown that GA does not disturb the specific colloidal structure. Together with rheological and thermal analysis obtained results have shown that GA in higher concentrations contributes to vehicles' lamellar structure. In 5-hour study the mean values of skin pH ranged from 3.98-4.25 and 3.89-4.10 after application of products with smaller and higher GA concentration. GA samples lowered skin surface pH to 5 and less in 24-hour and 7-day study, with stronger effect of sample with more GA. Sample with 10% of GA had significant inhibitory effect on growth of S. epidermidis in 1:1 concentration.

CONCLUSIONS

Investigated APG emulsifier could be used as a stabilizer for acidic topical products with GA which are characterized by satisfactory safety profile. Topical products induce acidification of the skin after short- and long-term application without barrier impairment or sign of irritation. Acidification of the skin depends on presence of ingredients which are proton donors and their concentrations.

摘要

目的

皮肤的酸性 pH 值是皮肤屏障稳态的调节因素之一。作为影响皮肤 pH 值的外在因素的局部产品可用于皮肤酸化和随之产生的有益效果。目前的挑战是开发稳定且安全的低 pH 值局部乳液产品，并且相关的研究领域包括酸性产品对皮肤 pH 值的影响以及这些研究方案的开发。我们的工作旨在研究用长链烷基多糖苷乳化剂稳定的含有甘醇酸（GA）的酸性局部产品配方，重点是载体的特定胶体结构，以及不同浓度的酸性活性物质对皮肤 pH 值的影响。

方法

研究了基本载体和两种含有甘醇酸（浓度为 2 和 10wt%）的乳膏配方。通过偏光显微镜、拉曼光谱成像、热分析和流变测量研究了微观结构。通过体内研究（5 小时、24 小时和 7 天）测量生物物理皮肤参数评估对皮肤的影响。体外筛选了抗菌活性，以评估其对表皮葡萄球菌的抑制作用。

结果

偏光显微镜和拉曼图像表明 GA 不会破坏特定的胶体结构。与流变学和热分析获得的结果一起表明，较高浓度的 GA 有助于载体的层状结构。在 5 小时的研究中，应用较小和较高 GA 浓度的产品后，皮肤 pH 值的平均值分别为 3.98-4.25 和 3.89-4.10。在 24 小时和 7 天的研究中，GA 样品将皮肤表面 pH 值降低至 5 以下，并且含有更多 GA 的样品效果更强。含有 10%GA 的样品在 1:1 浓度下对表皮葡萄球菌的生长具有显著的抑制作用。