Quantitative 1H NMR methodology for purity assay with high accuracy

IF 0.8 4区工程技术 Q4 CHEMISTRY, ANALYTICAL

Accreditation and Quality Assurance Pub Date : 2023-09-13 DOI:10.1007/s00769-023-01550-1

Tongtong Wang, Quanhui Liu, Min Wang, Jian Zhou, Mengrui Yang

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引用次数: 1

Abstract

Nuclear magnetic resonance (NMR) has fast emerged as a quantitative platform for it offered numerous advantages over chromatographic methods in analyzing purity and determining content of organic compounds. However, the mechanism of parameter settings has not been further investigated causing the improper or incorrect use in the widespread qNMR applications. This study aims to construct a quantitative ¹H NMR methodology based on the experiment optimization and simulation and explain the impact of parameter settings on accuracy. We successfully applied the proposed ¹H qNMR method with the internal standard method to assess the purity of ofloxacin, a commonly used antibacterial drug. The study showed that parameter settings, including flip angle, relaxation delay, transmitter frequency offset, scan number and data point, had different effects on the quantification errors (0.5 % to 8.9 %). The method validation proved that the ¹H qNMR methodology delivered high accuracy with the measurement uncertainty (0.60 %). The results demonstrated that the proposed ¹H qNMR method provided clear guidance on the practical implementation of accurate quantification of low molecular mass compounds (< 500 g/mol).

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定量1H NMR方法纯度测定与高精度

核磁共振(NMR)在分析有机化合物的纯度和测定有机化合物的含量方面具有比色谱法更多的优点，已迅速成为一种定量平台。然而，在广泛的qNMR应用中，参数设置的机理尚未得到进一步的研究。本研究旨在构建基于实验优化和模拟的定量1H NMR方法，并解释参数设置对准确性的影响。我们成功地将所建立的1H qNMR方法与内标法应用于常用抗菌药物氧氟沙星的纯度评价。研究表明，翻转角度、弛豫延迟、发射机频率偏移、扫描次数和数据点等参数设置对量化误差的影响不同(0.5% ~ 8.9%)。方法验证表明，该方法具有较高的测量精度，测量不确定度为0.60%。结果表明，所提出的1H qNMR方法为实际实施低分子质量化合物(< 500 g/mol)的精确定量提供了明确的指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Accreditation and Quality Assurance 工程技术-分析化学

CiteScore

1.80

自引率

22.20%

发文量

审稿时长

6-12 weeks

期刊介绍： Accreditation and Quality Assurance has established itself as the leading information and discussion forum for all aspects relevant to quality, transparency and reliability of measurement results in chemical and biological sciences. The journal serves the information needs of researchers, practitioners and decision makers dealing with quality assurance and quality management, including the development and application of metrological principles and concepts such as traceability or measurement uncertainty in the following fields: environment, nutrition, consumer protection, geology, metallurgy, pharmacy, forensics, clinical chemistry and laboratory medicine, and microbiology.

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