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含有载咪康唑固体脂质微粒的固体和半固体创新制剂,以促进药物包封进入颊黏膜。

Solid and Semisolid Innovative Formulations Containing Miconazole-Loaded Solid Lipid Microparticles to Promote Drug Entrapment into the Buccal Mucosa.

作者信息

De Caro Viviana, Giannola Libero Italo, Di Prima Giulia

机构信息

Dipartimento di Scienze e Tecnologie Biologiche Chimiche e Farmaceutiche (STEBICEF), University of Palermo, Via Archirafi 32, 90123 Palermo, Italy.

出版信息

Pharmaceutics. 2021 Aug 29;13(9):1361. doi: 10.3390/pharmaceutics13091361.

DOI:10.3390/pharmaceutics13091361
PMID:34575437
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8468017/
Abstract

The currently available antifungal therapy for oral candidiasis (OC) has various limitations restricting its clinical use, such as short retention time, suboptimal drug concentration and low patients compliance. These issues could be overcome using micro or nanotechnology. In particular, solid lipid microparticles (SLMs) resulted as a particularly promising penetration enhancer carrier for lipophilic drugs, such as the antifungal miconazole (MCZ). Based on these considerations, cetyl decanoate (here synthesized without the use of metal catalysis) was employed together with 1-hexadecanol to prepare MCZ-loaded SLMs. These resulted in a powder composed of 45-300 µm diameter solid spherical particles, able to load a high amount of MCZ in the amorphous form and characterized by a melting temperature range perfectly compatible with oromucosal administration (35-37 °C). Moreover, when compared to Daktarin 2% oral gel in ex vivo experiments, SLMs were able to increase up to three-fold MCZ accumulation into the porcine buccal mucosa. The prepared SLMs were then loaded into a buccal gel or a microcomposite mucoadhesive buccal film and evaluated in terms of MCZ permeation and/or accumulation into porcine buccal mucosa by using lower doses than the conventional dosage form. The promising results obtained highlighted an enhancement in terms of MCZ accumulation even at low doses. Furthermore, the prepared buccal film was eligible as stable, reproducible and also highly mucoadhesive. Therefore, the formulated SLMs represent a penetration enhancer vehicle suitable to reduce the dose of lipophilic drugs to be administered to achieve the desired therapeutic effects, as well as being able to be effectively embedded into easily administrable solid or semisolid dosage forms.

摘要

目前用于口腔念珠菌病(OC)的抗真菌疗法存在各种限制其临床应用的局限性,例如保留时间短、药物浓度不理想以及患者依从性低。这些问题可以通过微技术或纳米技术来克服。特别是,固体脂质微粒(SLMs)已成为一种特别有前景的亲脂性药物渗透增强剂载体,如抗真菌药咪康唑(MCZ)。基于这些考虑,癸酸十六酯(此处无需金属催化合成)与1-十六醇一起用于制备载有MCZ的SLMs。这些形成了一种由直径为45-300μm的固体球形颗粒组成的粉末,能够以无定形形式负载大量的MCZ,其特征在于熔点范围与口腔黏膜给药(35-37°C)完全兼容。此外,在体外实验中与2%达克宁口腔凝胶相比,SLMs能够使MCZ在猪颊黏膜中的积累增加高达三倍。然后将制备的SLMs装入口腔凝胶或微复合黏膜黏附口腔膜中,并通过使用比传统剂型更低的剂量来评估MCZ在猪颊黏膜中的渗透和/或积累情况。获得的有前景的结果突出表明,即使在低剂量下,MCZ的积累也有所增强。此外,制备的口腔膜符合稳定性、可重复性以及高黏膜黏附性的要求。因此,所制备的SLMs代表了一种渗透增强剂载体,适用于减少亲脂性药物的给药剂量以达到预期治疗效果,并且能够有效地嵌入易于给药的固体或半固体剂型中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8399/8468017/983654461cd1/pharmaceutics-13-01361-g011.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8399/8468017/5558b980c340/pharmaceutics-13-01361-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8399/8468017/983654461cd1/pharmaceutics-13-01361-g011.jpg

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