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采用控制结晶工程化技术的依普利酮纳米晶体,提高口服生物利用度。

Eplerenone nanocrystals engineered by controlled crystallization for enhanced oral bioavailability.

机构信息

Riphah Institute of Pharmaceutical Sciences, Riphah International University, Islamabad, Pakistan.

Nanomedicine Research Laboratory, National Institute of Lasers and Optronics (NILOP), PIEAS, Islamabad, Pakistan.

出版信息

Drug Deliv. 2021 Dec;28(1):2510-2524. doi: 10.1080/10717544.2021.2008051.

DOI:10.1080/10717544.2021.2008051
PMID:34842018
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8635601/
Abstract

Poor aqueous solubility of eplerenone (EPL) is a major obstacle to achieve sufficient bioavailability after oral administration. In this study, we aimed to develop and evaluate eplerenone nanocrystals (EPL-NCs) for solubility and dissolution enhancement. D-optimal combined mixture process using Design-Expert software was employed to generate different combinations for optimization. EPL-NCs were prepared by a bottom-up, controlled crystallization technique during freeze-drying. The optimized EPL-NCs were evaluated for their size, morphology, thermal behavior, crystalline structure, saturation solubility, dissolution profile, pharmacokinetics, and acute toxicity. The optimized EPL-NCs showed mean particle size of 46.8 nm. Scanning electron microscopy revealed the formation of elongated parallelepiped shaped NCs. DSC and PXRD analysis confirmed the crystalline structure and the absence of any polymorphic transition in EPL-NCs. Furthermore, EPL-NCs demonstrated a 17-fold prompt increase in the saturation solubility of EPL (8.96 vs. 155.85 µg/mL). The dissolution rate was also significantly higher as indicated by ∼95% dissolution from EPL-NCs in 10 min compared to only 29% from EPL powder. EPL-NCs improved the oral bioavailability as indicated by higher AUC, , and lower than EPL powder. Acute oral toxicity study showed that EPL-NCs do not pose any toxicity concern to the blood and vital organs. Consequently, NCs prepared by controlled crystallization technique present a promising strategy to improve solubility profile, dissolution velocity and bioavailability of poorly water-soluble drugs.

摘要

依普利酮(EPL)水溶性差,口服后生物利用度难以达到充分,这是一个主要障碍。本研究旨在开发和评价依普利酮纳米晶体(EPL-NCs)以提高其溶解度和溶解速率。采用 Design-Expert 软件的 D-最优组合混合工艺生成不同的组合进行优化。EPL-NCs 通过底部向上的控制结晶技术在冷冻干燥过程中制备。对优化后的 EPL-NCs 进行粒径、形态、热行为、晶体结构、饱和溶解度、溶解曲线、药代动力学和急性毒性评价。优化后的 EPL-NCs 的平均粒径为 46.8nm。扫描电子显微镜显示形成了拉长的平行六面体形状的 NCs。DSC 和 PXRD 分析证实了 EPL-NCs 的晶体结构和不存在任何多晶型转变。此外,EPL-NCs 使 EPL 的饱和溶解度提高了 17 倍(8.96µg/mL 对 155.85µg/mL)。溶解速率也显著提高,EPL-NCs 在 10 分钟内的溶解率约为 95%,而 EPL 粉末仅为 29%。EPL-NCs 提高了口服生物利用度,表现为 AUC、 和 均高于 EPL 粉末。急性口服毒性研究表明,EPL-NCs 对血液和重要器官没有毒性。因此,通过控制结晶技术制备的 NCs 为提高难溶性药物的溶解度、溶解速率和生物利用度提供了一种很有前途的策略。

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