通过近红外、核磁共振、高分辨率LC-MS和化学计量分析研究不同生产来源的二甲双胍活性物质,以对合法药物进行前瞻性分类

M. Raimondo, Francesca Prestinaci, F. Aureli, Giulia D’Ettorre, M. Gaudiano
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引用次数: 0

摘要

引言:活性物质的表征是确保合法药品可追溯性和真实性的重要工具。二甲双胍是一种完善的双胍衍生物,推荐作为2型糖尿病的一线治疗口服配方。随着需求的增加,二甲双胍很可能成为伪造和不合格生产的诱人目标,从而对消费者构成健康风险。能够识别活性药物成分(api)的微小差异的方法被认为是必要的。检测api中的欺诈行为并不是直截了当的,而且还没有一种技术可以提供足够的信息来明确地解决这个问题。方法:本研究建立了一个基于NIR、1H-NMR、13C-NMR和高分辨率LC-MS结合化学计量学的集成分析平台,对来自几家全球授权制造商的32份盐酸二甲双胍样品进行了分析。该研究的目的是探讨盐酸二甲双胍原料药化学特性的差异,以确定或预测每个制造商在前瞻性真实性研究中的可能分类。采用了不同的预处理方法;获得1H-和13C-NMR桶表,质谱数据以靶向和非靶向模式进行处理。通过多元无监督方法和主成分分析(PCA)对数据集进行单独分析和合并。结果和讨论:结果证明了集群行为的差异,取决于制造商。每种技术都显示出特定的聚类趋势,突出了不同的分析方法如何能够表征二甲双胍原料药。然而,一些制造商的样品显示出与技术无关的类似行为。如果单独使用,NIR和1H-NMR被证实为更具预测性的技术;特别是1H-NMR,在两个最具代表性的制造商的样品之间实现了良好的分离。对于LC-MS,靶向方法比非靶向方法更清晰地分离各组。然而,本文提出的非靶向LC-MS方法可能是获取原料药不同信息的一种可能的替代方法,几种不同且复杂的合成途径导致几种未知杂质。数据融合产生了进一步的制造商分组,突出了其在二甲双胍可追溯性方面的潜力。
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Investigating metformin-active substances from different manufacturing sources by NIR, NMR, high-resolution LC-MS, and chemometric analysis for the prospective classification of legal medicines
Introduction: The characterisation of active substances is an essential tool to ensure the traceability and authenticity of legal medicines. Metformin is a well-established biguanide derivative recommended in oral formulations as a first-line treatment for type 2 diabetes. With its increasing demand, metformin is likely to be an attractive target for falsification and substandard production, thus posing health risks to consumers. Methods that are able to identify even small differences in active pharmaceutical ingredients (APIs) are deemed necessary. The detection of fraudulent practices in APIs is not straightforward, and a single technique that can provide sufficient information to unambiguously address this issue is still not available. Methods: This study investigated an integrated analytical platform based on NIR, 1H-NMR, 13C-NMR, and high-resolution LC-MS combined with chemometrics to profile 32 metformin hydrochloride samples originating from several global authorised manufacturers. The study's aim was to explore differences in the chemical characteristics of metformin hydrochloride APIs to identify or predict a possible classification for each manufacturer in view of prospective authenticity studies. Different pre-processing methods were applied; bucket tables for 1H- and 13C-NMR were obtained, while mass spectrometry data were processed in targeted and untargeted modes. Datasets were individually analysed and merged by a multivariate unsupervised method and performing principal component analysis (PCA). Results and Discussion: The results evidenced differences in cluster behaviour, depending on manufacturers. Each technique has shown a specific clustering tendency, highlighting how different analytical approaches are able to characterise metformin APIs. Some manufacturers’ samples, however, showed similar behaviour independently of the techniques. NIR and 1H-NMR were confirmed as the more predictive techniques if taken individually; 1H-NMR, in particular, achieved good separation between the samples of the two most representative manufacturers. For LC-MS, the targeted approach resulted in a separation in groups clearer than that of the untargeted approach. Nevertheless, the untargeted LC-MS approaches presented in this paper could be a possible alternative to obtaining different information for drug substances, with several different and complex synthetic pathways leading to several unknown impurities. Further grouping of manufacturers emerged by data fusion, highlighting its potential in the traceability of metformin.
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