Intersupplier and interlot variability in hydroxypropyl celluloses: implications for theophylline release from matrix tablets

Carmen Alvarez-Lorenzo, Elisa Castro, José Luis Gómez-Amoza, Ramon Martı́nez-Pacheco, Consuelo Souto, Angel Concheiro
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引用次数: 18

Abstract

The physical and physicochemical properties of three lots of high-viscosity hydroxypropylcellulose (HPC) (two lots from a Japanese supplier and one lot from a US supplier) were compared. The drug-release properties of theophylline matrix tablets prepared with the different polymers were also investigated. HPCs from the two suppliers showed clear differences in molecular weight, molecular structure, particle size distribution, particle shape, and water affinity. Furthermore, clear differences were observed in the time-course of drug release from tablets made with the different polymers. The differences in basic physical and physicochemical properties of the HPCs affect compression behaviour, the capacity for and time-course of water uptake, and the rheological properties of aqueous dispersions, which explains the observed differences in time-course of drug release. Molecular weight and particle size distribution are particularly important determinants of drug release properties. Abnormally rapid drug release was observed from tablets prepared with relatively small amounts of the highest-molecular-weight highest-particle-size HPC. This result, together with the fact that the time-course of drug release differs markedly between matrix tablets prepared with HPCs that come from different suppliers but that are nominally interchangeable (at least according to the criteria given in the US Pharmacopoeia), suggests that these two properties (mean molecular weight and particle size distribution) are of value for quality control of HPCs destined for use in the manufacture of matrix tablets.

羟丙基纤维素的供应商间和批次间变异:基质片中茶碱释放的影响
比较了三批高粘度羟丙基纤维素(HPC)(两批来自日本供应商和一批来自美国供应商)的物理和物理化学性能。考察了不同聚合物制备的茶碱基质片的释药性能。两家供应商的HPCs在分子量、分子结构、粒径分布、颗粒形状和亲水性方面存在明显差异。此外,不同聚合物制成的片剂在药物释放的时间过程中也有明显的差异。HPCs的基本物理和物理化学性质的差异影响了水分散体的压缩行为、吸水能力和吸水时程以及流变性能,这解释了所观察到的药物释放时程的差异。分子量和粒径分布是药物释放特性的重要决定因素。用相对少量的最高分子量、最高粒径的HPC制备的片剂可以观察到异常快速的药物释放。这一结果,再加上用不同供应商但名义上可互换(至少根据美国药典给出的标准)的HPCs制备的基质片的药物释放时间过程明显不同这一事实,表明这两种性质(平均分子量和粒径分布)对用于制造基质片的HPCs的质量控制有价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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