1. The pharmacokinetics and disposition of rosuvastatin, a new 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor, were investigated following single administration of (14)C-rosuvastatin in the Sprague-Dawley rat. 2. Following oral administration of (14)C-rosuvastatin at 1, 5 and 25 mg kg(-1), the C(max) and AUC of the radioactivity in the plasma increased more than the increase in dose ratio. 3. Excretion of radioactivity was 98.0% of the dose in the faeces and 0.4% in the urine up to 168 h after oral administration in the intact rat, and was 55.1% in the bile and 0.5% in the urine up to 48 h post-dosing in the bile duct-cannulated rat. The unchanged compound mainly accounted for the radioactivity in the bile and faeces. 4. In the tissue distribution study, the concentration of the radioactivity in the liver was markedly higher than those in the other tissues, and the radioactivity concentration ratios of the liver to the plasma were between 8 and 25 up to 48 h after oral administration. The liver-specific distribution of rosuvastatin was similarly recognized in whole-body autoradiography. 5. Metabolic profiling studies indicated that rosuvastatin would not be metabolized by CYP enzymes. 6. These results clarified that rosuvastatin selectively distributed in the liver - the target organ - and was excreted in the bile mainly as the unchanged compound.
1. The disposition of radioactivity has been studied in rat and dog after intravenous administration of a single 10 mg/kg dose or multiple 1 mg/kg/day doses of 14C-gemcitabine. 2. Radioactivity was eliminated from the blood in a biphasic manner with half-lives of approximately 2 and 15 h in both the male and female rat. The concentration of radioactivity in the blood 24 h after the fifth dose was 4.4 times higher than that found after the first dose. In the male dog, the concentration of radioactivity in the blood showed a plateau during the first 2 h post-dose administration. 3. Radioactivity was rapidly and widely distributed throughout the body in both the male and female rat at 5 min after administration. Radioactivity was rapidly eliminated from the tissues with no evidence of accumulation. 4. After 120h, male rat excreted 95.2 and 1.9% of the dose in the urine and faeces respectively. Similar excretion patterns were observed in female rat and male dog. In rat, excretion of radioactivity in the urine 24 h after daily dosing was nearly constant, but excretion of radioactivity in the faeces slightly increased with increasing number of doses.
1. The placental transfer, lacteal transfer and plasma protein binding of gemcitabine have been studied in rat and dog after single intravenous administration of 10 mg/kg 14C-gemcitabine. 2. Radioactivity was distributed to the foetuses at 5 min after administration to rat on days 12 and 18 of gestation. The concentrations of radioactivity in the foetal liver, lung and kidney on day 18 of gestation were 4.0-6.4 times higher than in the maternal blood at 4 h after administration. Relatively high levels of radioactivity were noted in foetal tissues 24 h after administration, indicating slow elimination from the foetus. 3. The concentration of radioactivity in milk reached a maximum at 15 min after administration to the lactating rat on day 10 after delivery, then declined in a biphasic manner, and was below the detection limit at 48 h. The concentrations of radioactivity in milk were lower than plasma concentrations of radioactivity. 4. Plasma protein binding ratios were 10-16 and 1-7% between 5 min and 8 h after administration to the male rat and dog respectively. When fresh plasma from male rat, dog and adult man was spiked with 14C-gemcitabine at concentrations of 0.1-25 micrograms/ml, the plasma protein binding ratios were about 7% in both rat and dog, and 10% in man.
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