Formulation and evaluation of pioglitazone microspheres

Future Journal of Pharmaceuticals and Health Sciences Pub Date : 2024-04-08 DOI:10.26452/fjphs.v4i2.592

Rajagopal Rajaguru

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Abstract

The current study focuses on the formulation, development, and in vitro testing of pologlitazone microspheres containing guar gum and chitosan as naturally occurring polysaccharides that delay release. Nine formulations were created by altering the chitosan and guar gum ratios, using span-85 as an emulsifier as well as glutaraldehyde as a chemical cross linking agent. The microspheres were assessed in terms of particle size, encapsulation effectiveness, drug loading capacity, and in vitro drug release tests. The average particle size ranged from 30.2 mm (PP 1) to 36.5 mm (PP 2). There was a range of 0.45 to 0.78 in the swelling index. Microspheres smooth surfaces were found by SEM investigation. In order to verify that there are no chemical interactions between the medication and the polymer and to understand the structure of microspheres, differential scanning calorimetry as well as Fourier transform infrared spectroscopy were employed. At 10 hours, the optimised batch PP 1 released 97.45% using phosphate buffer pH7.4 as a dissolving media. In terms of release kinetics, the optimised formula's data were best fitted with the Higuchi model (r2= 0.671) and demonstrated zero order release (r2= 0.980) via a non-Fickian diffusion mechanism.

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吡格列酮微球的制备与评估

目前的研究重点是含有瓜尔胶和壳聚糖的波格列酮微球的配制、开发和体外测试，瓜尔胶和壳聚糖是可延迟释放的天然多糖。通过改变壳聚糖和瓜尔胶的比例、使用 span-85 作为乳化剂以及戊二醛作为化学交联剂，共制成了九种配方。对微球的粒径、封装效果、载药量和体外药物释放测试进行了评估。平均粒径从 30.2 毫米（PP 1）到 36.5 毫米（PP 2）不等。膨胀指数范围为 0.45 至 0.78。扫描电镜检查发现微球表面光滑。为了验证药物与聚合物之间不存在化学作用，并了解微球的结构，采用了差示扫描量热法和傅里叶变换红外光谱法。使用 pH7.4 磷酸盐缓冲液作为溶解介质，10 小时后，优化批次 PP 1 释放了 97.45%。在释放动力学方面，优化配方的数据与樋口模型（r2= 0.671）的拟合度最高，并通过非菲氏扩散机制显示了零阶释放（r2= 0.980）。

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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Future Journal of Pharmaceuticals and Health Sciences

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