用于定量阿折地平的稳定性指示液相色谱法：氧化降解产物的合成与表征

Stability-indicating LC Method for Quantification of Azelnidipine: Synthesis and Characterization of Oxidative Degradation Product.

作者信息

Sonawane Sandeep S, Bankar Pooja C, Kshirsagar Sanjay J

机构信息

MET's Institute of Pharmacy, MET League of Colleges, Bhujbal Knowledge City, Nashik, India

出版信息

Turk J Pharm Sci. 2021 Oct 28;18(5):550-556. doi: 10.4274/tjps.galenos.2020.76753.

DOI:10.4274/tjps.galenos.2020.76753

PMID:34719152

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8562112/

Abstract

OBJECTIVES

In the work presented here, the degradation behavior of azelnidipine under diverse forced degradation conditions was studied. A stability-indicating liquid chromatographic method was established which could separate and resolve azelnidipine from its degradation products. Further, chemical kinetics under acidic and alkaline conditions were studied, and validation studies were performed.

MATERIALS AND METHODS

Using reversed-phase chromatography, azelnidipine and its formed degradants were resolved using phosphate buffer (pH 3.0) and methanol in a mixture of 10:90% v/v as a mobile phase at a flow rate of 1.0 mL/min. All eluents were detected at a wavelength of 256 nm.

RESULTS

Azelnidipine was degraded under acid, alkali, wet heat, and oxidized environment. The pH-dependent rate of hydrolysis of azelnidipine was studied under acidic and alkaline conditions and chemical kinetics were determined. Further, the oxidative degradation product of azelnidipine was synthesized and characterized as 3-(1-benzhydrylazetidin-3-yl) 5-isopropyl 2-amino-6-methyl-4-(3-nitrophenyl) pyridine-3,5-dicarboxylate (dehydro-AZD).

CONCLUSION

The susceptibility of azelnidipine to hydrolysis was attributed to the presence of ester at 3 and 5 positions of 1,4 dihydropyridine. Further, under oxidative conditions, the aromatization of 1,4 dihydropyrinine resulted in dehydro-AZD. Azelnidipine followed the first-order reaction under acid and alkali hydrolysis, and was more susceptible to degradation under acidic conditions. The synthesized and confirmed dehydro-AZD was found as one of the metabolites and impurities of azelnidipine. The evaluated validation parameters ascertained the practicality of the method for the quantification of azelnidipine tablets.

摘要

目的

在本文所展示的工作中，研究了阿折地平在不同强制降解条件下的降解行为。建立了一种稳定性指示液相色谱法，该方法能够将阿折地平与其降解产物分离并解析。此外，研究了酸性和碱性条件下的化学动力学，并进行了方法验证研究。

材料与方法

采用反相色谱法，以磷酸盐缓冲液（pH 3.0）和甲醇按10:90% v/v的比例混合作为流动相，流速为1.0 mL/min，分离阿折地平及其形成的降解产物。所有洗脱液在256 nm波长处进行检测。

结果

阿折地平在酸、碱、湿热和氧化环境下均会降解。研究了阿折地平在酸性和碱性条件下pH依赖的水解速率，并确定了化学动力学。此外，合成了阿折地平的氧化降解产物，并将其表征为3-(1-二苯甲基氮杂环丁烷-3-基) 5-异丙基 2-氨基-6-甲基-4-(3-硝基苯基)吡啶-3,5-二羧酸酯（脱氢阿折地平）。

结论

阿折地平对水解的敏感性归因于1,4-二氢吡啶3位和5位存在酯基。此外，在氧化条件下，1,4-二氢吡啶的芳构化导致形成脱氢阿折地平。阿折地平在酸和碱水解条件下遵循一级反应，且在酸性条件下更易降解。合成并确证的脱氢阿折地平被发现是阿折地平的代谢产物和杂质之一。所评估的验证参数确定了该方法用于定量阿折地平片的实用性。

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