Accurate quantification of creatinine in serum by coupling a measurement standard to extractive electrospray ionization mass spectrometry

Abstract

Ambient ionization (AI) techniques have been widely used in chemistry, medicine, material science, environmental science, forensic science. AI takes advantage of direct desorption/ionization of chemicals in raw samples under ambient environmental conditions with minimal or no sample preparation. However, its quantitative accuracy is restricted by matrix effects during the ionization process. To improve the quantitative accuracy of AI, a matrix reference material, which is a particular form of measurement standard, was coupled to an AI technique in this study. Consequently the analyte concentration in a complex matrix can be easily quantified with high accuracy. As a demonstration, this novel method was applied for the accurate quantification of creatinine in serum by using extractive electrospray ionization (EESI) mass spectrometry. Over the concentration range investigated (0.166 ∼ 1.617 ±g/mL), a calibration curve was obtained with a satisfactory linearity (R 2 = 0.994), and acceptable relative standard deviations (RSD) of 4.6 ∼ 8.0% (n = 6). Finally, the creatinine concentration value of a serum sample was determined to be 36.18 ± 1.08 ±g/mL, which is in excellent agreement with the certified value of 35.16 ± 0.39 ±g/mL.