Development and Physiochemical Characteristics of Vitamin C-loaded Microneedles

Q3 Pharmacology, Toxicology and Pharmaceutics

Jordan Journal of Pharmaceutical Sciences Pub Date : 2023-07-24 DOI:10.35516/jjps.v16i2.1539

Raffa Aborayya, Amani Abu kwaik, Yasmeen Aladhami, Mais Naser, O. Tarawneh, R. Hamed

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引用次数: 0

Abstract

Vitamin C, ascorbic acid, is a water-soluble vitamin that is considered as one of the most potent antioxidant agent. It delays early skin aging, protects against harmful free radicals, improves wrinkles appearance under-eye circles, and reduces redness and hyperpigmentation. One of the most common way to deliver vitamin C to the body’s tissue is through skin layers. Nevertheless, the effect of such ingredient might be limited due to the stratum corneum barrier which decreases the ability to reach the site of action. In this study, we provide an innovative strategy of utilization dissolving microneedles (MNs) to enhance skin-drug delivery system and overcome problems associated with the conventional formulations. A delivery system of micro-molds which provide a diverse range of three-dimensional (3D) MNs were used for the fabrication of vitamin C patches. Vitamin C MNs were examined for mechanical force tolerance, drug ‎release, dimensional evaluation, dissolution, insertion, and permeation tests‎. Drug, polymers, and stabilizers were mixed at different ratios. Hydrogels were filled into the molds, centrifuged and left for air dry for 24-48 h. Appearance was visualized under light ‎microscope. Patches were analyzed to determine percent assay of drug loaded, mechanical ‎force, and penetration through the skin. The amount of vitamin C loaded into MNs was found to be 102%. MNs were easily inserted and dissolved through skin within 30 s. The dissolution rate of MNs were tested by using rat ‎skin to determine the release of vitamin C ‎within several time intervals. The in vitro release of ‎vitamin C loaded MNs showed cumulative release percentage up to 70% in 9-10 ‎h. Therefore, MNs as dermal drug delivery system was successfully developed, providing ‎efficient release of vitamin C through the skin.

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维生素C微针的研制及其理化特性

维生素C，抗坏血酸，是一种水溶性维生素，被认为是最有效的抗氧化剂之一。它可以延缓皮肤早期衰老，防止有害的自由基，改善眼圈下的皱纹，减少发红和色素沉着。将维生素C输送到身体组织的最常见方法之一是通过皮肤层。然而，由于角质层屏障降低了到达作用部位的能力，这种成分的作用可能是有限的。在这项研究中，我们提供了一种利用溶解微针（MNs）增强皮肤给药系统并克服传统制剂相关问题的创新策略。提供不同范围的三维（3D）MN的微模具递送系统被用于制造维生素C贴片。维生素C MNs的机械力耐受性、药物‎释放、尺寸评估、溶解、插入和渗透试验‎. 药物、聚合物和稳定剂以不同的比例混合。将水凝胶填充到模具中，离心并风干24-48小时。在光下观察外观‎显微镜对贴片进行分析，以确定载药、机械‎力和穿透皮肤。MNs中维生素C的含量为102%。MNs很容易在30秒内通过皮肤插入并溶解。用大鼠测试MNs的溶解速率‎皮肤测定维生素C的释放‎在几个时间间隔内。体外释放‎维生素C负载的MNs在9-10年显示出高达70%的累积释放百分比‎h.因此，MNs作为皮肤给药系统被成功开发，提供了‎通过皮肤有效释放维生素C。

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来源期刊

Jordan Journal of Pharmaceutical Sciences Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： The Jordan Journal of Pharmaceutical Sciences (JJPS) is a scientific, bi-annual, peer-reviewed publication that will focus on current topics of interest to the pharmaceutical community at large. Although the JJPS is intended to be of interest to pharmaceutical scientists, other healthy workers, and manufacturing processors will also find it most interesting and informative. Papers will cover basic pharmaceutical and applied research, scientific commentaries, as well as views, reviews. Topics on products will include manufacturing process, quality control, pharmaceutical engineering, pharmaceutical technology, and philosophies on all aspects of pharmaceutical sciences. The editorial advisory board would like to place an emphasis on new and innovative methods, technologies, and techniques for the pharmaceutical industry. The reader will find a broad range of important topics in this first issue.