非专利奥美拉唑镁肠溶片的预处方研究:初步研究

C. Migoha, M. Ratansi, E. Kaale, G. Kagashe
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引用次数: 1

摘要

预配制是原料药合理配制的重要环节。为确定奥美拉唑镁肠溶片处方开发的最佳辅料,采用微量指标:堆积密度(BD)、疏通密度(TD)、可压缩性指数(Carr’s指数)、Hauser’s比(H)和筛分分析。结果表明,奥美拉唑镁具有良好的流动和压缩性能(bd0.4 g/mL, TD 0.485 g/mL, Carr指数17.5%,Hauser比1.2,筛分时间5 min)。在奥美拉唑和aerosil 200的混合物中,除了颜色变化外,在所有三种情况下,没有显着的药物赋形剂相互作用。三种干燥条件下的含水率损失都不是恒定的,其变化与试验期间的周围环境有关。奥美拉唑与水气相油混合后的吸收光谱仅在350 ~ 2500 nm可见范围内发生变化。奥美拉唑镁单独和所有赋形剂在30天内奥美拉唑浓度没有显著变化。奥美拉唑镁制剂在细度、流动性和可压缩性方面符合USP标准,其他辅料可用于制剂中。奥美拉唑镁粉在较高温度和相对湿度的应激条件下没有变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preformulation Studies for Generic Omeprazole Magnesium Enteric Coated Tablets: Advance Study
Preformulation is an important step in the rational formulation of an active pharmaceutical ingredient (API). Micromeritics properties: bulk density (BD) and tapped density (TD), compressibility index (Carr’s index), Hauser’s ratio (H), and sieve analysis were performed in order to determine the best excipients to be used in the formulation development of omeprazole magnesium enteric coated tablets. Results show that omeprazole magnesium has fair flow and compressibility properties (BD 0.4 g/mL, TD 0.485 g/mL, Carr’s index 17.5%, Hauser’s ratio 1.2, and sieve analysis time 5 minutes). There were no significant drug excipient interactions except change in colour in all three conditions in the mixture of omeprazole and aerosil 200. Moisture content loss on drying in all three conditions was not constant and the changes were attributed to surrounding environment during the test time. Changes in the absorption spectra were noted in the mixture of omeprazole and water aerosil only in the visible region of 350–2500 nm. Omeprazole magnesium alone and with all excipients showed no significant changes in omeprazole concentration for a 30-day period. Omeprazole magnesium formulation complies with USP standards with regards to the fineness, flowability, and compressibility of which other excipients can be used in the formulation. Omeprazole magnesium powder did not change when subjected to stressful conditions of higher temperatures and relative humidity.
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