Enhanced ICP-MS detection of 24 elemental impurities in complex, high matrix mineral, medicinal lanthanum carbonates according to ICH Q2 (R2).

IF 2.7 3区 化学 Q2 CHEMISTRY, ANALYTICAL Analytical Methods Pub Date : 2024-11-06 DOI:10.1039/d4ay01589d
Meng-Meng Shen, Sun-Xin Zhou, Yi-Wen Jing, Chao-Qiang Xiao, Shu-Wang He, Jie Yang
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Abstract

Validation of the specificity of ICP-MS methods by ICH Q2 (R2) through spiking experiments cannot characterize the multi-atomic interference of complex high matrix samples, possibly affecting the accuracy of the method and reliability of results. In this study, we highlight this issue by investigating the elemental impurities in lanthanum carbonate raw materials and use isotope ratio analysis to overcome this limitation and establishing an accurate ICP-MS method for 24 elemental impurities (listed in ICH Q3D). An Agilent 7900 ICP-MS was used with an automatic sampler for sample determination in the He mode. The isotope ratio of elemental impurities in the spiked samples was analyzed to characterize polyatomic interference and select the exclusive mass number of elemental impurities. While the recovery rate of most elemental impurities met the requirements, that of selenium (default measurement mass number 78Se) exceeded the standard in the matric sample. The isotope ratio of Se (78Se/82Se) was much higher than the theoretical value, indicating that the response intensity of m/z 78 was formed by the combination of 78Se and other mass-to-charge ratios, such as LaOH2+ formed by the large amount of La in the matrix. Therefore, 82 was chosen as the mass number for Se. The validation results indicate that the method has strong specificity, high accuracy, and is simple and facile. This study provides technical support for the control of elemental impurities in lanthanum carbonates and isotope ratios can be used as a supplementary means of spiked recovery rates.

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根据 ICH Q2 (R2),增强 ICP-MS 对复杂、高基质矿物药用碳酸镧中 24 种元素杂质的检测。
ICH Q2 (R2) 通过加标实验验证 ICP-MS 方法的特异性,无法表征复杂高基质样品的多原子干扰,可能会影响方法的准确性和结果的可靠性。在本研究中,我们通过研究碳酸镧原料中的元素杂质来突出这一问题,并利用同位素比值分析来克服这一局限,建立了针对 24 种元素杂质(列于 ICH Q3D 中)的精确 ICP-MS 方法。在 He 模式下,使用 Agilent 7900 ICP-MS 和自动取样器进行样品测定。分析了加标样品中元素杂质的同位素比值,以确定多原子干扰的特征,并选择元素杂质的专属质量数。虽然大多数元素杂质的回收率符合要求,但硒元素(默认测量质量数为 78Se)在 基质样品中的回收率超出了标准。硒的同位素比(78Se/82Se)远高于理论值,表明 m/z 78 的响应强度是由 78Se 和其他质量电荷比共同形成的,如基质中大量 La 形成的 LaOH2+。因此,选择 82 作为 Se 的质量数。验证结果表明,该方法特异性强、准确度高、简便易行。该研究为控制碳酸镧中的元素杂质提供了技术支持,同位素比值可作为加标回收率的辅助手段。
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来源期刊
Analytical Methods
Analytical Methods CHEMISTRY, ANALYTICAL-FOOD SCIENCE & TECHNOLOGY
CiteScore
5.10
自引率
3.20%
发文量
569
审稿时长
1.8 months
期刊介绍: Early applied demonstrations of new analytical methods with clear societal impact
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