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使用1.8μm填充柱测定制剂中氯菊酯的快速通用高效液相色谱法及与其他柱型的性能比较

Fast and universal HPLC method for determination of permethrin in formulations using 1.8-μm particle-packed column and performance comparison with other column types.

作者信息

Shishovska Maja A, Stefova Marina T

机构信息

Institute for Public Health of the Republic of Macedonia, Department for Medicines Quality Control, 50 Divizija No 6, 1000 Skopje, Republic of Macedonia.

出版信息

J Chromatogr Sci. 2012 Jan;50(1):43-50. doi: 10.1093/chromsci/bmr014.

Abstract

An HPLC method has been developed for the fast separation and quantification of permethrin using C18 column packed with 1.8 µm particles. The method is specific with good resolution to degradation products and to other present components. It has acceptable validation results. The run time is 4.5 min (or may be within 1.6 min is rapid resolution mode) with an organic solvent consumption of 3.6 mL per run. The method has been applied to samples of formulations for various uses: mattress cleaner, shampoo, and veterinary powder. The performance of the applied column is compared with other common column types. The relationships between linear velocity of the mobile phase (u) and resolution factor (Rs), back-pressure (ΔP), and efficiency (H) are presented. The experimental data shows the advantages of 1.8-µm particle columns to be a significant reduction in solvent consumption (by factor of 4.4 and 1.5) and a reduction in run-time (by factor 4.7 and 1.5), and the weaknesses are a high back-pressure and lower efficiency. Finally, it has been shown that use of 1.8-µm particle packed columns with conventional HPLC systems is possible, but with limitations in mobile phase flow-rate.

摘要

已开发出一种高效液相色谱(HPLC)方法,用于使用填充有1.8 µm颗粒的C18柱快速分离和定量氯菊酯。该方法具有特异性,对降解产物和其他现有成分具有良好的分离度。其验证结果可接受。运行时间为4.5分钟(在快速分离模式下可能在1.6分钟内),每次运行的有机溶剂消耗量为3.6 mL。该方法已应用于各种用途的制剂样品:床垫清洁剂洗发水和兽用粉剂。将所应用色谱柱的性能与其他常见柱类型进行了比较。给出了流动相线性速度(u)与分离度因子(Rs)、背压(ΔP)和柱效(H)之间的关系。实验数据表明,1.8 µm颗粒柱的优点是溶剂消耗量显著降低(分别降低4.4倍和1.5倍)和运行时间缩短(分别缩短4.7倍和1.5倍),缺点是背压高和柱效较低。最后,结果表明,在传统HPLC系统中使用1.8 µm颗粒填充柱是可行的,但在流动相流速方面存在限制。

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