Oral pharmacokinetics of acetaminophen to evaluate gastric emptying profiles of Shiba goats.

The pharmacokinetics of acetaminophen was investigated following oral dosing to Shiba goats in order to evaluate the properties of gastric emptying. Acetaminophen was intravenously and orally administered at 30 mg/kg body weight to goats using a crossover design with a 3-week washout period. The stability of acetaminophen in rumen juice was also assessed. Acetaminophen concentrations were measured by HPLC. Since acetaminophen was stable in rumen juice for 24 hr, the extremely low bioavailability (16%) was attributed to its hepatic extensive first-pass effect. The mean absorption time and absorption half-life were unexpectedly short (4.93 and 3.35 hr, respectively), indicating its marked absorption from the forestomach, which may have been due to its smaller molecular weight. Therefore, acetaminophen was considered to be unsuitable for evaluating gastric emptying in Shiba goats.

Inhibitory effects of ketoconazole, cimetidine and erythromycin on hepatic CYP3A activities in cats.

Inhibitory effects of ketoconazole (KTZ), cimetidine (CIM), and erythromycin (ERY) were examined on CYP3A activities. Midazolam 1'- and 4-hydroxylation (MDZ1'H and MDZ4H) were used to determine CYP3A activities in hepatic microsomes obtained from cats (n=4). The results showed that, all the examined drugs inhibited the reactions in a noncompetitive manner. The inhibitory constants (Ki) of KTZ were 2.80 +/- 0.70 and 115 +/- 28 microM for MDZ1'H and MDZ4H, respectively. Those of CIM were 3.13 and 3.27 mM and of ERY were 3.14 and 6.41 mM for MDZ1'H and MDZ4H, respectively. Mechanism-based inhibition was also examined in this study. KTZ significantly reduced MDZ reactions in a time-dependent manner; while CIM and ERY did not. Also, the effects of KTZ and CIM on the pharmacokinetics of quinidine (QUN) were studied. KTZ or CIM (10 mg/kg/day, for one week) was given orally to cats (n=5). QUN (2 mg/kg, i. v.) was injected 2 hr after the last dose of KTZ or CIM. The analysis of the obtained pharmacokinetic parameters showed that, KTZ significantly reduced total body clearance of QUN by 35%, while CIM did not. These results suggest that, KTZ inhibits CYP3A activities (both in vitro and in vivo), but CIM does not. In clinical practice, therefore, KTZ may result in inhibition based drug-drug interaction with CYP3A substrates in cat patients, whereas CIM and ERY are unlikely to lead to interaction involving CYP3A substrates.