噻托溴铵脉动给药的配方开发

American Journal of PharmTech Research Pub Date : 2019-08-08 DOI:10.46624/ajptr.2020.v10.i3.006

C.Murali Krishna Goud, Y. Sravani

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引用次数: 0

摘要

一种脉冲给药系统，经过一段滞后时间后，在短时间内以快速和爆发的方式给药。在许多情况下，药物需要在特定部位立即释放(在延迟膜涂层破裂后)。本研究的目的是利用压包法制备噻托溴铵脉冲给药。所有配方对硬度、脆度、厚度、重量变化等理化参数均有满意的效果。乙基纤维素对缓释时间有显著影响，对缓释时间也有显著影响。压包衣片剂显示缓释模式。在所有核心片剂中，以给定时间内的药物释放度为标准选择T7。体外释药率研究表明，P3T7以较低的滞后期释药量为优化目标。配方P3T7在45℃和75% RH下稳定6个月。傅里叶变换红外光谱研究表明，溴化钛托品与聚合物之间没有相互作用。

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Formulation Development of Pulsatile Drug Delivery of Tiotropium Bromide

A Pulsatile drug delivery system delivers drug in rapid and burst manner within a short time after a lag time. There are many situations where drug is needed to be released immediately (after bursting the delaying film coat) at specific site. The aim of present work is to develop Pulsatile drug delivery of Tiotropium Bromide using press coating method. All the formulations have shown satisfactory results for various physicochemical parameters like hardness, friability, thickness, weight variation. Ethyl cellulose has predominant effect on the lag time, while also shows significant effect on drug release. Press coated tablet shows a delayed release pattern. Among all the core tablet formulations T7 was selected based on drug release within a given period of time. In-vitro release rate studies showed that the P3T7 was optimized based on less amount of drug release during lag time. Formulations P3T7 found to be stable at 45 C and 75% RH for a period of 6 months. FT-IR studies revealed that there was no interaction between Tiotropium bromide and the polymers.

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American Journal of PharmTech Research

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