Bazo Antonio, Bolea-Fernandez Eduardo, Rua-Ibarz Ana, Aramendía Maite, Resano Martín
Department of Analytical Chemistry, Aragon Institute of Engineerinag Research (I3A), University of Zaragoza, Zaragoza 50009, Spain.
Anal Chem. 2025 Jul 8;97(26):13922-13929. doi: 10.1021/acs.analchem.5c01588. Epub 2025 Jun 7.
In this work, two novel nanoparticle (NP)-based calibration strategies, external calibration and a relative method, have been explored for single-cell ICP-mass spectrometry (SC-ICP-MS) analysis. The fundamental principle of these methods is to rely on individual entities (well-characterized NPs of the target analyte) for calibration rather than on ionic standard solutions. The performance of the NP-based calibration approaches has been compared to that of the reference method (particle size with AuNP standards). In addition to the intracellular Se content (mass per individual cell), the extracellular Se (dissolved fraction) was also determined directly and simultaneously using the average background from the SC-ICP-MS time-resolved signal. The figures-of-merit of the methods developed have been evaluated by relying on the analysis of the SELM-1 cell-certified reference material, consisting of Se-enriched yeast cells, and certified for its total Se content (intracellular + extracellular Se). All methods successfully determined the Se elemental contents, but an improvement in accuracy and precision was observed for the NP-based methods compared to the reference one. Furthermore, the NP-based methods were found to be less time-consuming, more straightforward, and more user-friendly in terms of calculations. These results open new avenues for calibration in quantitative SC-ICP-MS analysis and call for a fundamental change in the methodology, where the determination of ionic contents is based on the use of ionic standard solutions for calibration, while the determination of elemental contents in discrete micro/nanoentities, such as cells, should ideally be based on calibration using standard entities, thus avoiding the need to calculate a transport efficiency coefficient.
在这项工作中,已经探索了两种基于纳米颗粒(NP)的新型校准策略,即外部校准和相对方法,用于单细胞电感耦合等离子体质谱(SC-ICP-MS)分析。这些方法的基本原理是依靠单个实体(目标分析物的特征明确的NP)进行校准,而不是依靠离子标准溶液。已将基于NP的校准方法的性能与参考方法(使用金纳米颗粒标准品的粒度分析)的性能进行了比较。除了细胞内硒含量(每个细胞的质量)外,还使用SC-ICP-MS时间分辨信号的平均背景直接并同时测定了细胞外硒(溶解部分)。通过对SELM-1细胞认证参考物质进行分析,评估了所开发方法的品质因数,该参考物质由富硒酵母细胞组成,并已对其总硒含量(细胞内+细胞外硒)进行了认证。所有方法均成功测定了硒元素含量,但与参考方法相比,基于NP的方法在准确性和精密度方面有了提高。此外,发现基于NP的方法在计算方面耗时更少、更直接且更用户友好。这些结果为定量SC-ICP-MS分析中的校准开辟了新途径,并要求在方法学上进行根本性变革,即离子含量的测定基于使用离子标准溶液进行校准,而离散的微/纳米实体(如细胞)中元素含量的测定理想情况下应基于使用标准实体进行校准,从而避免计算传输效率系数的需要。
