负载不溶性小分子药物的PLGA缓释微球:基于微流体的制备、优化、表征和体外和体内评价。

IF 6.5 2区 医学 Q1 PHARMACOLOGY & PHARMACY
Yue Su, Jia Liu, Songwen Tan, Wenfang Liu, Rongrong Wang, Chuanpin Chen
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引用次数: 11

摘要

微球在精确控制药物传递和释放速度方面发挥着重要作用。为实现不溶性小分子药物的缓释,研制了一种新型三相流聚焦微流控装置,制备了以比卡鲁胺(BCSⅱ类)为模型药物,聚乳酸-羟基乙酸酯(PLGA)为载体材料的载药缓释微球。在优化的处方条件下,微球表面光滑,粒径为51.33 μm, CV值为4.43%。缓释微球体外释放持续时间约为40天,无初始爆发释放。微球的释药机制为药物扩散和聚合物侵蚀。同时,微球在体内的药物释放时间可达30天。总之,本研究的微流控装置为不溶性小分子药物缓释微球的制备提供了新的解决方案。该微流控装置研制的PLGA缓释微球在不溶性小分子药物的精准递送和缓释方面具有良好的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PLGA sustained-release microspheres loaded with an insoluble small-molecule drug: microfluidic-based preparation, optimization, characterization, and evaluation in vitro and in vivo.

Microspheres play an important role in controlling drug delivery and release rate accurately. To realize the sustainable release of insoluble small-molecule drugs, a new three-phase flow-focusing microfluidic device was developed to produce the drug-loaded sustained-release microspheres which were prepared with bicalutamide (BCS class-II) as the model drug and poly(lactide-co-glycolide) (PLGA) as the carrier material. Under optimized prescription conditions, the microspheres showed a smooth surface and uniform size of 51.33 μm with a CV value of 4.43%. Sustained-release microspheres had a releasing duration of around 40 days in vitro without any initial burst release. The drug release mechanism of the microspheres was drug diffusion and polymer erosion. Meanwhile, the drug release of microspheres in vivo could be up to 30 days. Briefly, the microfluidic device in this study provides a new solution for the preparation of sustained-release microspheres for insoluble small-molecule drugs. PLGA sustained-release microspheres developed by the microfluidic device have good application prospects in precise delivery and sustainable release of insoluble small-molecule drugs.

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来源期刊
Drug Delivery
Drug Delivery 医学-药学
CiteScore
11.80
自引率
5.00%
发文量
250
审稿时长
3.3 months
期刊介绍: Drug Delivery is an open access journal serving the academic and industrial communities with peer reviewed coverage of basic research, development, and application principles of drug delivery and targeting at molecular, cellular, and higher levels. Topics covered include all delivery systems including oral, pulmonary, nasal, parenteral and transdermal, and modes of entry such as controlled release systems; microcapsules, liposomes, vesicles, and macromolecular conjugates; antibody targeting; protein/peptide delivery; DNA, oligonucleotide and siRNA delivery. Papers on drug dosage forms and their optimization will not be considered unless they directly relate to the original drug delivery issues. Published articles present original research and critical reviews.
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