Comparative stability study of unit-dose repackaged furosemide tablets

Clinical Research and Regulatory Affairs Pub Date : 2011-05-23 DOI:10.3109/10601333.2011.568492

E. B. Asafu-Adjaye, A. Carlin, E. Jefferson, A. Bryant, B. Rothman, M. A. Khan, P. Faustino

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引用次数: 5

Abstract

The stability of a 40 mg furosemide tablet drug product repackaged in a unit-dose USP class A blister pack and the identical product in its original container made of HDPE material was studied under ICH long-term conditions of 25°C and relative humidity (RH) of 60% and accelerated stressed conditions of 40°C and 75% RH. Samples from original and repackaged drug products were periodically removed from storage conditions and subjected to pharmaceutical and spectroscopic analysis. Results indicate the potency 91.5 ± 0.9% of the tablet strength for the original packaging drug product vs 91.6 ± 4.0% for the repackaged product are statistically similar for long-term and accelerated stress conditions. Tablet hardness (6.0 ± 0.3 KP) and loss on drying (3.2%) was the same for original and repackaged drug products under both stressed conditions indicating similar moisture sorption behavior. Non-invasive spectroscopic techniques did not show any differences in moisture content. Dissolution and TGA results were similar for all study samples. In conclusion, contrary to a previous FDA repackaging study for tablets with hygroscopic excipients, the product quality attributes of furosemide tablets formulated with low sorption excipients were not affected by repackaging, under the specific stress conditions of this study.

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单位剂量重新包装呋塞米片的稳定性比较研究

研究了用单位剂量USP a类吸塑包装重新包装的40mg呋塞米片剂药品和用HDPE材料原装包装的40mg呋塞米片剂在ICH 25℃、相对湿度(RH) 60%的长期条件和40℃、75% RH的加速应力条件下的稳定性。原包装和再包装药品的样品定期从储存条件下取出，并进行药物和光谱分析。结果表明，在长期和加速应激条件下，原包装药品的效价为片剂强度的91.5±0.9%，而重新包装药品的效价为91.6±4.0%，具有统计学上的相似性。原装和再包装药品在两种压力条件下的片剂硬度(6.0±0.3 KP)和干燥损失(3.2%)相同，表明吸湿行为相似。非侵入性光谱技术没有显示出水分含量的任何差异。所有研究样本的溶出度和TGA结果相似。总之，与之前FDA对吸湿性辅料片的重新包装研究相反，在本研究的特定应激条件下，低吸湿性辅料配制的呋塞米片的产品质量属性不受重新包装的影响。

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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Clinical Research and Regulatory Affairs

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