基于与无机物的简单氧化反应,开发测定散装药物和剂型中加利西韦的绿色高通量微孔分光光度法

Ibrahim A Darwish, Nourah Z Alzoman, Reem M Abuhejail
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引用次数: 0

摘要

背景:盐酸加吡地韦(GDV)是一种新型高效安全的抗病毒药物,可用于治疗包括COVID-19在内的多种病毒性疾病。文献中没有测定散装和剂型中 GDV 的分析方法:本研究的目的是研究 GDV 与五种无机氧化试剂的氧化反应,并利用这些反应开发出五种绿色微孔分光光度法(MW-SPMs),这些方法程序简单、通量大,可用于测定散装和剂型(胶囊)中的 GDV:反应在 96 孔板中进行,用吸光微孔板阅读器测量反应溶液的吸光度。对影响反应的变量进行了仔细研究和优化:结果:在优化条件下,GDV 浓度在 5-700 µg/mL 范围内均符合比尔定律,相关系数为 0.9992-0.9997,检出限≥1.8 µg/mL。所有方法的验证参数均合格。方法的准确度和精密度均较高,回收率为98.6-101.2 ± 0.58-1.14%。通过三种综合指标工具对 MW-SPMs 的绿色性进行了评估,证明 MW-SPMs 符合绿色分析化学方法的原则:结论:所提出的 MW-SPM 结合了基于微孔的做法和使用普通实验室试剂进行分析的优点。微孔分析的优点是通量高、易于实现半自动化、减少样品/试剂用量、测量精确和用途广泛。使用普通实验室试剂的优点是可用性、一致性、兼容性、安全性和成本效益高:总之,所提出的 MW-SPM 是在药品生产过程中定量检测 GDV 的多功能宝贵工具。
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Development of Green and High-Throughput Microwell Spectrophotometric Methods for Determination of Galidesivir in Bulk Drug and Dosage Forms Based on Simple Oxidimetric Reactions With Inorganic Agents.

Background: Galidesivir hydrochloride (GDV) is a new potent and safe antiviral drug used for the treatment of a broad spectrum of viral diseases, including COVID-19. In the literature, no analytical method exists for the determination of GDV in bulk or dosage form.

Objective: The objective of this study was the investigation of oxidation reactions of GDV with five inorganic oxidizing reagents and the employment of the reactions in the development of five green microwell spectrophotometric methods (MW-SPMs) with simple procedure and high throughputs for determination of GDV in its bulk and dosage forms (capsules).

Methods: The reactions were carried out in 96-well plates, and the absorbances of reaction solutions were measured by an absorbance microplate reader. Variables influencing the reactions were carefully investigated and optimized.

Results: Under the refined optimum conditions, Beer's law with excellent correlation coefficients (0.9992-0.9997) was followed in GDV concentrations in a general range of 5-700 µg/mL, and the limits of detection were ≥1.8 µg/mL. All validation parameters of all methods were acceptable. The methods were successfully applied to the analysis of GDV in bulk drug and capsules with high accuracy and precision; the recovery percentages were 98.6-101.2 ± 0.58-1.14%. The greenness of MW-SPMs was evaluated by three comprehensive metric tools, which demonstrated the adherence of MW-SPMs to the principles of the green analytical chemistry (GAC) approach.

Conclusions: The proposed MW-SPMs combined the advantages of microwell-based practice and the use of common laboratory reagents for the analysis. The advantages of microwell analysis were the high throughput, readily available for semi-automation, reduced samples/reagents volume, precise measurements, and versatility. The advantages of using common laboratory reagents were the availability, consistency, compatibility, safety, and cost-effectiveness.

Highlights: Overall, the proposed MW-SPMs are versatile, valuable tools for the quantitation of GDV during its pharmaceutical manufacturing.

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