ABSTRACT
The method was developed to be applied for direct determination of selenium in rat plasma by graphite-furnace atomic absorption spectrometry with Zeeman background correction. Blood was obtained from CD rats of both sexes 2h after dosing in weeks 7 and 13 in order to acquire data on the levels of selenium in these animals during 13-week gavage administration of l-seleno-methylselenocysteine (SeMC), a new candidate chemopreventive agent under development. Application of the commonly used method of standard addition was found to be unsuitable to calculate the selenium content in rat plasma (within-run and between-run accuracy and precision parameters were less than 85%). Therefore, a new analytical method was developed. In this method, samples of rat plasma (50 microL) were diluted 10-fold with a reducing agent containing l-ascorbic acid, a modifier solution containing palladium chloride and Triton X-100. Samples were atomized in pyrolytically coated graphite tubes and peak height signals were measured. Selenium concentrations were determined by linear least squares regression analysis based on the standard curve generated in pooled rat blank plasma. Since selenium is normally present in plasma, a three-step approach was used to calculate selenium plasma levels. Initially selenium levels were determined based on the standard curve with selenium-spiked pool plasma. In the second step, background selenium levels in the pooled plasma were determined based on the same standard curve. In the third step, background level was added to the previously derived number. The relative errors were in the range from -4.6 to 11.4% (intra-day assay) and from -0.4 to 8.8% (inter-day assay) which proved good accuracy. The relative standard deviations were in the range from 1.88 to 4.70% (intra-day precision) and from 3.28 to 5.38% (inter-day precision). In rat plasma, the following dose-dependent selenium levels (mean+/-S.D.) in males and females, respectively, were observed at 13 weeks: 655.5+/-48.8 and 595.8+/-43.9 ng/mL (control group), 927.9+/-85.3 and 859.3+/-164.3 ng/mL (0.4 mg/kg per day dose group), 1238.9+/-182.4 and 1169.9+/-112.6 ng/mL (0.8 mg/kg per day dose group), and 1476.5+/-138.1 and 1320.1+/-228.6 ng/mL (2.0mg/kg per day dose group). No significant sex differences in selenium plasma levels were seen in the SeMC-treated groups. No significant differences in selenium plasma levels were seen between mean plasma levels at 7 and 13 weeks. The described method is simple, rapid, accurate, precise and can be easily applied in other laboratories for a large number of samples.
