Formulation and Stability of Quercetin-Loaded Pickering Emulsions Using Chitosan/Gum Arabic Nanoparticles for Topical Skincare Applications.

IF 4.7 3区工程技术 Q1 POLYMER SCIENCE

Polymers Pub Date : 2025-07-04 DOI:10.3390/polym17131871

Mathukorn Sainakham, Paemika Arunlakvilart, Napatwan Samran, Pattavet Vivattanaseth, Weeraya Preedalikit

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引用次数: 0

Abstract

Natural polymer-based nanoparticles have emerged as promising stabilizers for Pickering emulsions, offering biocompatibility, environmental sustainability, and improved protection of active compounds. This study developed chitosan/gum arabic (CH/GA) nanoparticles as solid stabilizers for quercetin-loaded Pickering emulsions to enhance the stability and antioxidant bioactivity of quercetin (QE), a plant-derived flavonoid known for its potent radical-scavenging activity but limited by oxidative degradation. A systematic formulation strategy was employed to evaluate the effects of CH/GA concentration (0.5-2.0% w/v), oil type (olive, soybean, sunflower, and coconut), and oil volume fraction (ϕ = 0.5-0.7) on emulsion stability. The formulation containing 1.5% CH/GA and olive oil at ϕ = 0.6 exhibited optimal physical and interfacial stability. Quercetin (0.1% w/w) was incorporated into the optimized emulsions and characterized for long-term stability, particle size, droplet morphology, rheology, antioxidant activity (DPPH), cytocompatibility, and intracellular reactive oxygen species (ROS) protection using HaCaT keratinocytes. The olive oil-based formulation (D1-QE) exhibited greater viscosity retention and antioxidant stability than its soybean-based counterpart (E2-QE) under both room temperature (RT) and accelerated heating-cooling (H/C) storage conditions. Confocal microscopy confirmed the accumulation of CH/GA nanoparticles at the oil-water interface, forming a dense interfacial barrier and enhancing emulsion stability. HPLC analysis showed that D1-QE retained 92.8 ± 0.5% of QE at RT and 82.8 ± 1.5% under H/C conditions after 30 days. Antioxidant activity was largely preserved, with only 4.7 ± 1.7% and 14.9 ± 4.8% loss of DPPH radical scavenging activity at RT and H/C, respectively. Cytotoxicity testing in HaCaT keratinocytes confirmed that the emulsions were non-toxic at 1 mg/mL QE and effectively reduced H₂O₂-induced oxidative stress, decreasing intracellular ROS levels by 75.16%. These results highlight the potential of CH/GA-stabilized Pickering emulsions as a polymer-based delivery system for maintaining the stability and functional antioxidant activity of QE in bioactive formulations.

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壳聚糖/阿拉伯胶纳米颗粒皮肤护理用槲皮素酸洗乳的配方及稳定性

天然聚合物基纳米颗粒已成为皮克林乳剂的稳定剂，具有生物相容性、环境可持续性和对活性化合物的更好保护。本研究开发了壳聚糖/阿拉伯胶（CH/GA）纳米颗粒作为负载槲皮素的皮灵乳的固体稳定剂，以提高槲皮素（QE）的稳定性和抗氧化生物活性。槲皮素是一种植物衍生的类黄酮，以其强大的自由基清除活性而闻名，但受氧化降解的限制。采用系统的配方策略，考察了CH/GA浓度（0.5 ~ 2.0% w/v）、油型（橄榄、大豆、葵花籽和椰子）和油体积分数（φ = 0.5 ~ 0.7）对乳状液稳定性的影响。含有1.5% CH/GA和φ = 0.6的橄榄油的配方具有最佳的物理和界面稳定性。将槲皮素（0.1% w/w）加入到优化的乳剂中，并使用HaCaT角质形成细胞对其长期稳定性、粒径、液滴形态、流变学、抗氧化活性（DPPH）、细胞相容性和细胞内活性氧（ROS）保护进行了表征。在室温（RT）和加速加热-冷却（H/C）储存条件下，橄榄油基配方（D1-QE）比大豆基配方（E2-QE）具有更好的粘滞性和抗氧化稳定性。共聚焦显微镜证实了CH/GA纳米颗粒在油水界面聚集，形成致密的界面屏障，增强了乳状液的稳定性。HPLC分析显示，D1-QE在室温下保留92.8±0.5%的QE，在高温条件下保留82.8±1.5%的QE。在RT和H/C下，DPPH自由基清除能力分别仅下降4.7±1.7%和14.9±4.8%。HaCaT角质形成细胞的细胞毒性测试证实，乳状液在1 mg/mL QE下无毒，有效降低h2o2诱导的氧化应激，使细胞内ROS水平降低75.16%。这些结果突出了CH/ ga稳定皮克林乳剂作为一种基于聚合物的递送系统的潜力，可以在生物活性配方中保持QE的稳定性和功能性抗氧化活性。

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来源期刊

Polymers POLYMER SCIENCE-

CiteScore

8.00

自引率

16.00%

发文量

4697

审稿时长

1.3 months

期刊介绍： Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.