Formulation and evaluation of floating oral in situ gelling system of amoxicillin.

ISRN Pharmaceutics Pub Date : 2011-01-01 Epub Date: 2011-07-28 DOI:10.5402/2011/276250
Dasharath M Patel, Divyesh K Patel, Chhagan N Patel
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引用次数: 43

Abstract

Purpose. Effective Helicobacter pylori eradication requires delivery of the antibiotic locally in the stomach. High dose of amoxicillin (750 to 1000 mg) is difficult to incorporate in floating tablets but can easily be given in liquid dosage form. Keeping the above facts in mind, we made an attempt to develop a new floating in situ gelling system of amoxicillin with increased residence time using sodium alginate as gelling polymer to eradicate H. pylori. Methods. Floating in situ gelling formulations were prepared using sodium alginate, calcium chloride, sodium citrate, hydroxypropyl methyl cellulose K100, and sodium bicarbonate. The prepared formulations were evaluated for solution viscosity, floating lag time, total floating time, and in vitro drug release. The formulation was optimized using a 3(2) full factorial design. Dissolution data were fitted to various models to ascertain kinetic of drug release. Regression analysis and analysis of variance were performed for dependent variables. Results. All formulations (F(1)-F(9)) showed floating within 30 s and had total floating time of more than 24 h. All the formulations showed good pourability. It was observed that concentration of sodium alginate and HPMC K100 had significant influence on floating lag time, cumulative percentage drug release in 6 h and 10 h. The batch F(8) was considered optimum since it showed more similarity in drug release (f(2) = 74.38) to the theoretical release profile. Conclusion. Floating in situ gelling system of amoxicillin can be formulated using sodium alginate as a gelling polymer to sustain the drug release for 10 to 12 h with zero-order release kinetics.

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阿莫西林漂浮口服原位胶凝系统的研制与评价。
意图有效根除幽门螺杆菌需要在胃中局部输送抗生素。大剂量阿莫西林(750至1000 mg)很难加入漂浮片中,但可以很容易地以液体剂型给药。考虑到上述事实,我们尝试开发一种新的阿莫西林漂浮原位凝胶系统,使用海藻酸钠作为凝胶聚合物来根除幽门螺杆菌,增加停留时间。方法。使用海藻酸钠、氯化钙、柠檬酸钠、羟丙基甲基纤维素K100和碳酸氢钠制备浮式原位凝胶制剂。评估制备的制剂的溶液粘度、漂浮滞后时间、总漂浮时间和体外药物释放。使用3(2)全因子设计对制剂进行优化。将溶出度数据拟合到各种模型中,以确定药物释放的动力学。对因变量进行回归分析和方差分析。后果所有配方(F(1)-F(9))显示在30 s,并且总浮动时间超过24 h.所有配方均显示出良好的可倾倒性。结果表明,海藻酸钠和HPMC K100的浓度对6 h和10 h.批次F(8)被认为是最佳的,因为它在药物释放(F(2)=74.38)方面与理论释放曲线更相似。结论阿莫西林的漂浮原位凝胶系统可以使用海藻酸钠作为凝胶聚合物配制,以维持药物释放10至12 h,具有零级释放动力学。
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