The pharmacokinetics of losartan and EXP3174, an active metabolite of losartan, were evaluated in the anesthetized pig after both a single intravenous dose (3 mg/kg) and during constant intravenous infusion. The pharmacodynamic activities of losartan and EXP3174 were determined during constant intravenous infusion as the degree of inhibition of angiotensin II-induced increase in the diastolic pressure. The systemic plasma clearance of losartan was 22.1 +/- 4.4 ml/min/kg (mean +/- SEM) and had an apparent volume of distribution at steady state of 0.56 +/- 0.16 L/kg after a 3-mg/kg intravenous dose. The elimination half-life of losartan was 40 +/- 6 min. Less than 2% of the intravenous losartan doses was estimated to be present as unconjugated EXP3174. The plasma clearance of EXP3174 was approximately 50% that of losartan, 11.8 +/- 1.5 ml/min/kg, and had a smaller steady-state apparent volume of distribution, 0.18 +/- 0.04 L/kg. The elimination half-life for EXP3174 was slightly longer than that of losartan (52 min). The time course of the pharmacodynamic effects of losartan and EXP3174 closely followed their respective plasma concentrations. The apparent dissociation constant of EXP3174 to the angiotensin II receptor was estimated, based on the total plasma concentrations, to be approximately 5 times lower than that for losartan.
The pharmacokinetics of oxytetracycline in 2-yr-old loggerhead sea turtles (Caretta caretta) after single i.v. and i.m. injections were studied for biologic marking and therapeutic applications. Twenty juvenile turtles were divided into two treatment groups. Ten animals received 25 mg/kg of oxytetracycline i.v. and 10 received the same dosage i.m. Plasma oxytetracycline concentrations were analyzed by reverse-phase high-performance liquid chromatography. Data from the i.v. route best fit a three-compartment model, whereas noncompartmental analysis was used to compare data from both the i.v. and i.m routes. For the i.v. route, means for maximum plasma concentration, terminal phase half-life, systemic clearance, and apparent volume of distribution at steady state were 6.6 microg/ml, 66.1 hr, 290.7 ml/hr/kg, and 18.4 L, respectively. For the i.m. route, means for systemic availability, maximum plasma concentration, and elimination half-life were 91.8%, 1.6 microg/ml, and 61.9 hr, respectively. The remarkably high apparent volume of distribution may possibly be associated with a deep compartment of drug disposition such as bone deposition associated with the large skeletal mass of turtles and the fact that these were well-nourished, growing juveniles. Although maximum plasma concentration by i.m. administration was lower than for the i.v. route, the long elimination time indicates that an infrequent dosing interval may be effective for sensitive bacteria.
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