A rapid and sensitive liquid chromatography/mass spectrometry (LC/MS) method was developed and validated for the determination of roxatidine in human plasma. Roxatidine was extracted by single liquid-liquid extraction with tert-butyl methyl ether, and the chromatographic separation was performed on a C8 column. The total analytical run time was relatively short (5 min), and the limit of assay quantification was 2 ng/mL using 0.1 mL of human plasma. Roxatidine and the internal standard, propranolol, were monitored in selected ion monitoring (SIM) mode at m/z 307.3 and 260.3, respectively. The standard curve was linear over a concentration range from 2-500 ng/mL, and the correlation coefficients were >0.999. The mean intra- and inter-day assay accuracy ranged from 103.4-108.8% and 102.3-110.0%, respectively, and the mean intra- and inter-day precision was between 3.3-8.8% and 5.3-6.2%, respectively. The developed assay method was successfully applied to a pharmacokinetic study in human volunteers after oral administration of roxatidine acetate hydrochloride at a dose of 75 mg.
Background: This study assessed the population pharmacokinetics and metabolic conversion of a novel histone deacetylase (HDAC) inhibitor, SD-2007, into its active metabolite, apicidin, in rats. Methods: SD-2007 was given to rats by intravenous injection (4 mg/kg) and oral administration (40 mg/kg). Serum concentrations of SD-2007 and apicidin were determined by LC-MS/MS. All concentrations were analyzed using a population pharmacokinetic model with 9 compartments in S-ADAPT. Results: The area under the curve for apicidin was 96 ± 16 mg·h/ml after 4 mg/kg administered intravenously and 2,455 ± 1,211 mg·h/ml after 40 mg/kg given orally. The population pharmacokinetic model described all profiles well. After oral administration of SD-2007, the median absolute bioavailability of SD-2007 was 6.67% (range 3.83–9.89) and the median apparent bioavailability was 22.3% (range 15.7–35.8) for apicidin, whereas only a median of 8.85% (range 7.57–9.34) of an intravenous SD-2007 dose was converted to apicidin. Conclusions: Oral SD-2007 displayed a substantial presystemic metabolism to active apicidin. The high serum concentrations of apicidin after oral administration of SD-2007 may cause significant HDAC inhibition.
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