开发一种反相超纯液相色谱法,用于测定氟虫腈,包括测定散装氟虫腈药物中的相关物质。

Shane N Berger, Abu M Rustum
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引用次数: 0

摘要

背景:氟虫腈是农业和动物保健行业常用的杀虫剂,用于保护农作物和控制跳蚤、蜱和嚼虱。根据现行的《欧洲药典》(EP)专论,很难获得氟虫腈常见水解降解产物的可重现保留时间和 RRT,以检测和估算氟虫腈的相关物质。这种情况导致在批量释放期间和/或在释放批次的保质期内的稳定性样品中对氟虫腈的这种水解降解产物进行错误鉴别、错误标记和/或得出错误的超出规格的结果:本研究旨在开发一种反相超高效液相色谱法,用于测定和鉴定氟虫腈,包括鉴定和估算氟虫腈批次散装药物中的相关物质,并提供水解降解产物的一致保留时间:采用 Halo C18 色谱柱(内径 50 mm × 2.1 mm,粒径 2.0 µm),以 0.1% H3PO4 in H2O 为流动相-A,乙腈-甲醇(体积比为 50 + 50)为流动相-B,在 40 °C 下进行梯度洗脱,分离氟虫腈及其相关物质。氟虫腈及其相关物质的检测和定量波长为 280 nm,定量限为目标(分析)浓度的 0.05%:结果:UPLC 方法能够通过梯度洗脱分离所有感兴趣的分析物,总运行时间为 7 分钟(比 EP 方法快 40%):本文报告了一种快速、稳定的反相UPLC方法的开发和验证,该方法可用于氟虫腈稳定性样品和批量生产的氟虫腈中相关物质的检测和估算:新的超高效液相色谱法比目前 EP 专著中的氟虫腈检测方法快 40%,而且新方法可重复保留氟虫腈常见的水解降解产物。
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Development of a Reversed-Phase UPLC Method for Assay of Fipronil Including Determination of Its Related Substances in Bulk Batches of Fipronil Drug Substance.

Background: Fipronil is a commonly used pesticide in the agricultural and animal health industries for the protection of crops and control of fleas, ticks, and chewing lice. It is difficult to obtain reproducible retention time and relative retention time (RRT) for a common hydrolytic degradation product of fipronil with the current European Pharmacopeia (EP) monograph for assay and estimation of related substances of fipronil. This situation causes misidentification, mislabeling, and/or false out-of-specification results for this hydrolytic degradation product of fipronil in bulk commercial batches during batch release and/or in the stability samples during the shelf life of a released batch.

Objective: This study aimed to develop a reversed-phase ultra performance liquid chromatography (UPLC) method for assay and identification of fipronil including identification and estimation of its related substances in bulk drug substance batches of fipronil and provide consistent retention time of the hydrolytic degradation product.

Methods: Fipronil and its related substances were separated by gradient elution on a Halo C18 column (50 mm × 2.1 mm id, 2.0 µm particle size) maintained at 40°C with 0.1% H3PO4 in H2O as mobile phase-A and acetonitrile-methanol (50 + 50, v/v) as mobile phase-B. Fipronil and its related substances were detected and quantified at 280 nm with a quantitation limit of 0.05% of the target (analytical) concentration.

Results: The UPLC method was able to separate all analytes of interest by gradient elution with a total run time of 7 min (approximately 40% faster than EP).

Conclusion: In this paper, we report the development and validation of a fast, stability-indicating reversed-phase UPLC method for assay and estimation of related substances of fipronil in stability samples and bulk batches of fipronil.

Highlights: The new UPLC method is approximately 40% faster than the current Ph. Eur. monograph for fipronil assay and the new method provides reproducible retention of a common hydrolytic degradation product of fipronil.

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