IMPROVEMENT OF DISSOLUTION RATE OF REPAGLINIDE BY UTILIZING SOLID DISPERSION TECHNIQUE

Current Research in Pharmaceutical Sciences Pub Date : 2023-04-08 DOI:10.24092/crps.2023.130107

Mahendra Patel, A. Indurkhya, M. Khan

引用次数: 0

Abstract

The recent study's objective was to prepare and evaluate the Repaglinide (RG) solid dispersion. RG is poorly water soluble, BCS class II drug. Repaglinide solid dispersion (RG-SD) was prepared by solvent evaporation method using different proportion of PVP K30. The prepared RG-SD was evaluated for solubility studies, drug content, in vitro dissolution, DSC studies and XRD studies. DSC and XRD studies results indicate that RG exists in amorphous form in solid dispersion. The solubility of pure RG was enhanced from 34.41±0.68 to 370.3±1.52 μg/mL in distilled water at 370 C. RG-SD (RG:PVP K30) (1:10) showed high burst release (65%) in the first 30 min. Current research concludes that Repaglinide solid dispersions using PVP-K30 (1:10) as a carrier in solid dispersions showed promising results in enhancement of repaglinide properties. KEYWORDS: Repaglinide, Solid Dispersion, PVK K30, Dissolution Rate, Solvent evaporation

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利用固体分散技术提高瑞格列奈的溶出度

最近的研究目的是制备和评价瑞格列奈(RG)的固体分散体。RG为低水溶性BCS II类药物。采用不同比例的PVP K30，采用溶剂蒸发法制备瑞格列奈固体分散体(RG-SD)。对制备的RG-SD进行溶解度研究、药物含量、体外溶出度、DSC研究和XRD研究。DSC和XRD研究结果表明，RG以非晶形式存在于固体分散体中。纯RG在370℃蒸馏水中的溶解度从34.41±0.68提高到370.3±1.52 μg/mL。RG- sd (RG:PVP K30)(1:10)在前30 min内具有较高的爆发释放(65%)。目前的研究表明，以PVP-K30(1:10)为载体的固体分散体在增强瑞格列奈性能方面表现出良好的效果。关键词:瑞格列奈，固体分散体，PVK K30，溶出率，溶剂蒸发

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current Research in Pharmaceutical Sciences

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