STUDY OF THE STABILITY OF THE SUBSTANCE 3-[2-(4-PHENYL-1-PIPERAZINO)-2-OXOETHYL]QUINAZOLINE-4(3Н)-ONE UNDER STRESSFUL CONDITIONS

T. Gendugov, A. Glushko, A. Ozerov, L. I. Shcherbakova
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Abstract

The aim of the research was to study the stability of a new pharmaceutical substance 3-[2-(4-phenyl-1-piperazino)-2-oxoethyl]quinazoline-4(3Н)-one under stress conditions.Materials and methods. The study was conducted in accordance with the recommendations of the ICH guidelines. The object of the study was a previously unknown derivative of quinazoline-4(3H)-one: 3-[2-(4-phenyl-1-piperazino)-2-oxoethyl] quinazoline-4(3Н)-one synthesized in Volgograd state medical university. The following laboratory equipment was used: HPLC chromatograph, HPLC-MS, centrifuge, electronic scales, pH meter, thermostat, laboratory filters. The computational experiment was conducted on a computer with an Intel Xeon E3-1230 processor using the programs ORCA 4.1. and GROMACS 2019.Results. The influence of the most unfavorable environmental factors, such as high temperature, light, oxidants, hydrolysis in acidic and alkaline environments, affect the stability of the test substance. The results of the computer-based stability prediction were confirmed by HPLC and HPLC-MS, and the degradation products of the substance under stressful conditions were determined. The conducted studies showed that the test substance is stable to UV radiation at the wavelength of 365 nm, at the elevated temperature (80°C), to the action of oxidants. But it is unstable to hydrolysis: in an alkaline medium of sodium hydroxide 1M, a break in the amide group occurs with the formation of 2-(4-oxoquinazoline-3-yl)acetic acid and 1-phenylpiperazine. And in an acidic environment, hydrochloric acid 1M is also destroyed, but it is significantly reduced, presumably due to the protonation and stabilization of tertiary nitrogen atoms in the molecule.Conclusion. The conducted research makes it possible to conclude that the test substance 3-[2-(4-phenyl-1-of piperazino)-2-oxoethyl]quinazoline-4(3Н)-one is stable to aggressive environmental factors, with the exception of hydrolysis in an alkaline environment that will be further considered in the preparation of regulatory documents for this pharmaceutical substance.
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物质3-[2-(4-苯基-1-哌嗪)-2-氧乙基]喹唑啉-4(3Н)- 1在压力条件下的稳定性研究
研究了新制剂3-[2-(4-苯基-1-哌嗪)-2-氧乙基]喹唑啉-4(3Н)- 1在胁迫条件下的稳定性。材料和方法。这项研究是按照ICH指南的建议进行的。研究对象是伏尔加格勒国立医科大学合成的一种以前未知的喹唑啉-4(3H)-one衍生物:3-[2-(4-苯基-1-哌嗪)-2-氧乙基]喹唑啉-4(3Н)-one。使用的实验设备有:HPLC色谱仪、HPLC- ms、离心机、电子秤、pH计、恒温器、实验室过滤器。在Intel至强E3-1230处理器的计算机上,采用ORCA 4.1程序进行了计算实验。和GROMACS 2019.Results。最不利的环境因素的影响,如高温、光照、氧化剂、酸碱环境中的水解等,都会影响被试物质的稳定性。通过HPLC和HPLC- ms验证了计算机稳定性预测结果,并测定了该物质在应激条件下的降解产物。所进行的研究表明,测试物质对波长为365 nm的紫外线辐射,在高温(80℃)下,对氧化剂的作用是稳定的。但水解不稳定:在碱性介质氢氧化钠1M中,酰胺基发生断裂,生成2-(4-氧喹啉-3-基)乙酸和1-苯哌嗪。在酸性环境下,盐酸1M也会被破坏,但会被显著减少,可能是由于分子中叔氮原子的质子化和稳定作用。所进行的研究可以得出结论,试验物质3-[2-(4-苯基-1-哌嗪)-2-氧乙基]喹唑啉-4(3Н)- 1对侵蚀性环境因素是稳定的,但在碱性环境中水解除外,这将在制备该药物物质的监管文件时进一步考虑。
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