改善胃潴留的新型双室胶囊的设计与研制。

ISRN Pharmaceutics Pub Date : 2013-01-01 Epub Date: 2013-01-27 DOI:10.1155/2013/752471
Ganesh B Patil, Saurabh S Singh, Ketan P Ramani, Vivekanand K Chatap, Prashant K Deshmukh
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引用次数: 9

摘要

本研究的目的是开发一种新型的双室胶囊(NDCC),用于胃保留剂型,最终使氧氟沙星具有更好的溶解度和生物利用度。利用不同的天然聚合物,分离环带和位于胶囊底部的可膨胀聚合物,配制了浮环帽。评估了配方环帽的涂层厚度,体外浮力,体外药物释放,释放动力学和稳定性研究。胶囊壳获得的涂层为0.0643 mm。根据所使用的天然聚合物的性质,大多数配方的浮力超过9小时。开发的制剂显示出相当高的药物释放长达9小时。根据Korsmeyer-Peppas模型,所开发的F(E2)描述了药物释放。在进行稳定性研究后,开发的环帽的性能特征没有任何显着变化。目前的研究表明,口服给药氟沙星的NDCC可能是一种替代方案,以提高其全身可用性,可通过浮动途径调节。设计的剂量系统可以在未来应用于需要胃特定递送的有效载荷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Design and development of novel dual-compartment capsule for improved gastroretention.

Design and development of novel dual-compartment capsule for improved gastroretention.

Design and development of novel dual-compartment capsule for improved gastroretention.

Design and development of novel dual-compartment capsule for improved gastroretention.

The aim of the proposed research work was to develop a novel dual-compartment capsule (NDCC) with polymeric disc for gastroretentive dosage form, which will ultimately result in better solubility and bioavailability of Ofloxacin. Floating ring caps were formulated by using different natural polymers, separating ring band and swellable polymer located at the bottom of capsule. Formulated ring caps were assessed for coating thickness, In vitro buoyancy, In vitro drug release, release kinetics and stability studies. Coating attained by the capsule shell was found to be 0.0643 mm. Depending on nature of natural polymer used, most of the formulations showed buoyancy for more than 9 hrs. Developed formulation demonstrated considerably higher drug release up to 9 hrs. The developed formulation F(E2) depicted the drug release according to Korsmeyer-Peppas model. There was not any significant change in performance characteristics of developed ring caps after subjecting them to stability studies. The present study suggests that the use of NDCC for oral delivery of Ofloxacin could be an alternative to improve its systemic availability which could be regulated by the floating approach. The designed dosage system can have futuristic applications over payloads which require stomach-specific delivery.

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