Modeling and Characterization of Drug Release from Glutinous Rice Starch Based Hydrogel Beads for Controlled Drug Delivery

International journal of health research and innovation Pub Date : 2010-06-09 DOI:10.4314/IJHR.V2I1.55398

N. Sachan, A. Bhattacharya

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引用次数: 25

Abstract

Purpose: To identify the potential of Assam Bora rice in modulation of drug release from the formulated matrix devices and demonstrate its utility in pharmaceutical drug carrier systems. Methods: The hydrogel microbeads were prepared by an industrially feasible conventional ionotropic gelation method using the blends of pregelatinized Bora rice along with sodium alginate as mucoadhesive backbone. The potential of proposed natural polymer in modulation of drug release from the formulated microbeads was investigated through in vitro dissolution test conducted as per SUPAC-MR guidelines provided by FDA. Data obtained from in vitro release studies were fitted to various kinetic equations to find out the kinetics and mechanism of drug release from fabricated microbeads. Results: The microbeads were almost spherical, discreet and free flowing in a size range of about 0.726±0.008 mm to 1.16±0.009 mm. The different formulations had variable correlation with the different kinetic models under the different release environments. Conclusion: Assam Bora can be a promising option for mucoadhesive controlled drug delivery systems as natural substance. Keywords: Drug delivery, Bora rice starch, Release kinetics, Natural polymer.

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以糯米淀粉为基础的水凝胶微球控制给药的药物释放建模与表征

目的:确定阿萨姆邦博拉稻在调制基质装置中药物释放的潜力，并证明其在药物载体系统中的实用性。方法:采用工业上可行的常规离子化凝胶法制备水凝胶微珠，以预糊化的宝拉米和海藻酸钠为粘接骨架。根据FDA提供的SUPAC-MR指南，通过体外溶出试验研究了天然聚合物对配制微珠药物释放调节的潜力。将体外释放实验的数据拟合到各种动力学方程中，以找出制备微球的药物释放动力学和机制。结果:所得微球呈球状，粒径范围为0.726±0.008 mm ~ 1.16±0.009 mm。在不同的释放环境下，不同的配方与不同的动力学模型有不同的相关性。结论:阿萨姆博拉是一种很有前途的天然物质，可用于黏附控制给药系统。关键词:给药;宝来米淀粉;释放动力学;

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International journal of health research and innovation

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