利格列汀双层缓释片的制备及体外释放研究

付强; 蒋香云; 雷钧涛<sup>*</sup>; 姜英子<sup>*</sup>

引用本文:	付强,蒋香云,雷钧涛,姜英子.利格列汀双层缓释片的制备及体外释放研究[J].中国现代应用药学,2021,38(6):704-709.
	FU Qiang,JIANG Xiangyun,LEI Juntao,JIANG Yingzi.Study on Preparation Process and in Vitro Release Behavior of Linagliptin Double-layer Sustained-release Tablets[J].Chin J Mod Appl Pharm(中国现代应用药学),2021,38(6):704-709.

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利格列汀双层缓释片的制备及体外释放研究
付强¹, 蒋香云², 雷钧涛³, 姜英子¹
1.延边大学, 吉林延吉 133000;2.华北理工大学, 河北唐山 063210;3.吉林医药学院, 吉林吉林 132013

摘要:

目的制备一种新型利格列汀双层缓释片，并考察其体外释放行为。方法以羟丙基甲基纤维素（hydroxyl propyl methyl cellulose，HPMC）为骨架材料、黄原胶为黏合剂，采用单因素设计筛选处方，进行利格列汀双层缓释片的制备，并绘制处方在pH 6.80介质中的体外溶出曲线；采用常规Ritger-Peppas、Higuchi、一级、零级释放曲线方程进行拟合，分析样品释药原理。结果经优化后的样品由含药缓释层和含药速释层构成。缓释层由主成分利格列汀3 mg、缓释骨架材料HPMC（型号：K4M及K100M，用量均50 mg）、填充剂微晶纤维素100 mg、凝胶缓释基质黄原胶15 mg、润滑剂硬脂酸镁1 mg组成；速释层由主成分利格列汀2 mg、填充剂微晶纤维素10 mg、崩解剂交联聚乙烯吡咯烷酮15 mg、润滑剂硬脂酸镁1 mg组成。最终结果与零级释放方程匹配度最高，极具相关性，拟合结果r²无限接近于1。结论成功制得利格列汀双层缓释片，并实现零级释放。

关键词: 利格列汀羟丙基甲基纤维素双层缓释片零级释放

DOI：10.13748/j.cnki.issn1007-7693.2021.06.012

分类号:R944.4

基金项目:

Study on Preparation Process and in Vitro Release Behavior of Linagliptin Double-layer Sustained-release Tablets

FU Qiang¹, JIANG Xiangyun², LEI Juntao³, JIANG Yingzi¹

1.Yanbian University, Yanji 133000, China;2.North China University of Science and Technology, Tangshan 063210, China;3.Jilin Medical University, Jilin 132013, China

Abstract:

OBJECTIVE To prepare novel linagliptin sustained-release tablets with double layers and to investigate the in vitro release behavior. METHODS The formulation was evaluated with a single factor design, hydroxyl propyl methyl cellulose(HPMC) were used as skeletal material and xanthan gum were used as adhesive, the dissolution curve in vitro was draw in pH 6.80 medium. The Ritger-Peppas, Higuchi, zero-order and first-order release equations were used to fit the dissolution curves and the principle of drug release was analyzed. RESULTS The optimized sample was composed of a drug-containing sustained-release layer and a drug-containing immediate-release layer. The sustained-release layer was composed of ligliptin(the main component) 3 mg, HPMC(the sustained-release matrix material, the models were K4M and K100M) 50 mg, microcrystalline cellulose(the filler) 100 mg, xanthan gum(gel sustained-release matrix) 15 mg, magnesium stearate(lubricant) 1 mg. The immediate release layer was composed of ligliptin(the main component) 2 mg, microcrystalline cellulose(filler) 10 mg, polyplasdone(disintegrating agent) 15 mg, magnesium stearate(lubricant) 1 mg. The final result had the highest matching degree with the zero-order release equation and was highly correlated. The fitting result r² was infinitely close to 1. CONCLUSION The linagliptin sustained-release tablets with double layers are successfully prepared and zero-order release is realized.

Key words: ligliptin hydroxypropyl methylcellulose double-layer sustained-release zero-order release