Development and Optimization of Fluvastatin Sodium Loaded Biodegradable Microspheres

Kishorkumar Sorathi̇a, A. Lumbhani, Santosh Chauhan, Mehul Patel, Tejal Soni̇, B. Suhagia
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Abstract

Fluvastatin sodium is a hypolipidemic agent that reduces cholesterol synthesis by inhibiting HMG-COA reductase. The drug has a comparatively short biological half-life (1.2 hours) and low bioavailability (24– 29%), making it an appropriate candidate for a sustained-release drug delivery system. This study aimed to formulate biodegradable microspheres of fluvastatin sodium by optimization through an experimental design approach. Microspheres containing fluvastatin sodium were prepared by o/w emulsification solvent evaporation method using poly (lactic-co-glycolic acid) (PLGA 50:50) as a biodegradable polymer. 32 full factorial design was applied to study the effect of drug to polymer ratio and stirring speed on dependent variables, i.e. particle size, entrapment efficiency, Q1h, t80%. Prepared formulations were subjected to evaluate physicochemical properties and release characteristics. DSC and FTIR proved no interaction between the drug and excipients. Microspheres possessed size in the range of 193 to 344 μm and entrapment efficiency varied from 63.1 to 85.6%. Formulations showed drug release up to 23% within 1-hour. while t80% was found in between 3–9 hours. Regression analysis and ANOVA results suggested a significant effect (p<0.05) of variables on responses. The results of the present study suggested that biodegradable microspheres of fluvastatin sodium prepared using poly (lactic-co-glycolic acid) can be a promising alternative for conventional delivery and suitable for sustained drug release.
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氟伐他汀钠生物可降解微球的开发与优化
氟伐他汀钠是一种降血脂药,通过抑制 HMG-COA 还原酶来减少胆固醇的合成。该药物的生物半衰期较短(1.2 小时),生物利用度较低(24-29%),因此是缓释给药系统的合适候选药物。本研究旨在通过实验设计方法优化氟伐他汀钠生物可降解微球的配方。以聚(乳酸-共-乙醇酸)(PLGA 50:50)为生物可降解聚合物,采用油/水乳化溶剂蒸发法制备了含氟伐他汀钠的微球。采用 32 全因子设计研究了药物与聚合物的比例和搅拌速度对因变量(即粒度、包埋效率、Q1h、t80%)的影响。对制备的配方进行了理化性质和释放特性评估。DSC 和 FTIR 证明药物与辅料之间没有相互作用。微球的尺寸在 193 至 344 μm 之间,包埋效率为 63.1% 至 85.6%。制剂在 1 小时内的药物释放率高达 23%,而在 3-9 小时内的释放率为 80%。回归分析和方差分析结果表明,变量对反应有显著影响(p<0.05)。本研究的结果表明,使用聚(乳酸-共聚乙醇酸)制备的氟伐他汀钠生物可降解微球是一种很有前景的传统给药替代品,适合药物的持续释放。
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