ABSTRACT
Objective To evaluate the method for detection of urinary mercury using a Zeeman atomic absorption mercury analyzer and to provide a reference for selecting a convenient method for mercury detection in experiments and clinical diagnoses. Methods Urinary mercury was detected by Zeeman atomic absorption spectroscopy (ZAAS) and hydride generation atomic absorption spectrometry (HG-AAS), and the detection limit, accuracy, precision and consistency of the two methods were compared. Results The Data collected by ZAAS and HG-AAS showed a good linear relationship in the range of 0 -1000 ng/mL (ZASS, R2 =1. 0000) and 0 -20 ng/mL (HG-AAS, R2 =0. 9990). The detection limits of ZAAS was 0. 156 ng/mL and that of HG-AAS was 1. 593 ng/mL, indicating that ZAAS is more sensitive. The recovery rate of standard addition of ZAAS was between 97. 5% and 103. 2%, and that of HG-AAS was between 95. 6% and 104. 5%. After measurement of 10 ng/mL and 100 ng/mL mercury standard solutions repeated for 10 times, the relative standard deviation (RSD) of ZAAS was 0. 30% and 0. 36% respectively, and the RSD of HG-AAS was 2. 82% and 1. 11%, respectively. The accuracy and precision of both the two method met the standards of GBZ/T 210. 5-2008, and the precision of ZAAS was better. A total of 30 urine samples were measured by these two methods. The results were compared with paired-samples t-test and showed a non-significant difference (P > 0. 05), indicating a high consistency of these two method (R2 =0. 9961). Conclusions ZAAS is a convenient and accurate method for the detection of urinary mercury, with a relatively low detection limit and better precision.
ABSTRACT
Three methods C2, 3-diaminonaphathalene molecular fluorimetry, hydride generation atomic fluorescence spectrometry (HG-AFS) and hydride generation atomic absorption spectrometry (HG-AAS)] for the determination of selenium in food samples were compared with one another. The absolute detection limits of HG-AFS and HG-AAS are 1.2 and 0.9ng respectively, lower than that of molecular fluorimetry(3.9ng). The precisions and accuracies of HG-AFS and HG-AAS are similar to molecular fluorimetry. When these methods were used to determine selenium in 6 standard reference materials, there was no significant difference among the mean values from each of the methods.