喷雾干燥壳聚糖寡糖微颗粒与聚乙烯醇基分散体可提高吉非替尼的溶解度。

IF 3 4区 医学 Q2 CHEMISTRY, APPLIED
Shubham B Ahir, Bhaskar Vallamkonda, Ranadheer Reddy Challa, Nishant Chopade, Prashant K Deshmukh, Mahesh P More
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引用次数: 0

摘要

本研究的目的是利用壳聚糖寡糖(COS)颗粒工程开发给药系统,从而提高结晶吉非替尼(GF)这种水溶性较差药物的溶解度。制造方法是先离子凝胶化,然后喷雾干燥。在进行了 Uv-Vis、FTIR、DSC 等初步评估后,又采用了 SEM、体外药物释放特性和溶解度研究等先进技术。喷雾干燥颗粒的平均直径为 3.18 ± 0.5 微米,EE%和负载(湿重)分别从 63.25 ± 2.1%(COS 纳米颗粒)和 37.98 ± 1.5%(湿重)提高到 78.15 ± 2.6%(工程微粒)和 45.34 ± 1.6%(湿重)。zeta电位和体外研究表明,其释放率分别为41 ± 3.5 mV和92 ± 2.1%(重量比),这表明其具有长期稳定性和延长释放时间的特点。这种新颖的工程方法有效地提高了 GF 的溶解度和表面特性,为改善给药特性提供了广阔的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spray-dried chitosan oligosaccharide microparticles with polyvinyl alcohol-based dispersions for improved gefitinib solubility.

The aim of research is to enhance the solubility of crystalline gefitinib (GF), a poorly water-soluble drug, by developing drug delivery systems using chitosan oligosaccharide (COS) particle engineering. Fabrication utilizes ionic gelation followed by spray drying. The preliminary evaluations such as Uv-Vis, FTIR, DSC followed by advanced techniques like SEM and invitro drug release characteristics was performed along with solubility study. The spray-dried particles measured a mean diameter of 3.18 ± 0.5 microns, %EE as well as load w/w improved from 63.25 ± 2.1% and 37.98 ± 1.5% w/w (COS nanoparticles) to 78.15 ± 2.6% and 45.34 ± 1.6% w/w (engineered microparticles), respectively. The zeta potential and in vitro studies demonstrated 41 ± 3.5 mV and 92 ± 2.1% (w/w) release suggest long-term stability and prolonged release. This novel engineering approach effectively enhances GF solubility and surface characteristics, offering promising potential for improving delivery characteristics.

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来源期刊
Journal of microencapsulation
Journal of microencapsulation 工程技术-工程:化工
CiteScore
6.30
自引率
2.60%
发文量
39
审稿时长
3 months
期刊介绍: The Journal of Microencapsulation is a well-established, peer-reviewed journal dedicated to the publication of original research findings related to the preparation, properties and uses of individually encapsulated novel small particles, as well as significant improvements to tried-and-tested techniques relevant to micro and nano particles and their use in a wide variety of industrial, engineering, pharmaceutical, biotechnology and research applications. Its scope extends beyond conventional microcapsules to all other small particulate systems such as self assembling structures that involve preparative manipulation. The journal covers: Chemistry of encapsulation materials Physics of release through the capsule wall and/or desorption from carrier Techniques of preparation, content and storage Many uses to which microcapsules are put.
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