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  • Author or Editor: Mia S. Säkkinen x
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Abstract

Objective—To investigate the effects of oral administration of activated charcoal (AC) and urine alkalinization via oral administration of sodium bicarbonate on the pharmacokinetics of orally administered carprofen in dogs.

Animals—6 neutered male Beagles.

Procedures—Each dog underwent 3 experiments (6-week interval between experiments). The dogs received a single dose of carprofen (16 mg/kg) orally at the beginning of each experiment; after 30 minutes, sodium bicarbonate (40 mg/kg, PO), AC solution (2.5 g/kg, PO), or no other treatments were administered. Plasma concentrations of unchanged carprofen were determined via high-performance liquid chromatography at intervals until 48 hours after carprofen administration. Data were analyzed by use of a Student paired t test or Wilcoxon matched-pairs rank test.

Results—Compared with the control treatment, administration of AC decreased plasma carprofen concentrations (mean ± SD maximum concentration was 85.9 ± 11.9 mg/L and 58.1 ± 17.6 mg/L, and area under the time-concentration curve was 960 ± 233 mg/L•h and 373 ± 133 mg/L•h after control and AC treatment, respectively). The elimination half-life remained constant. Administration of sodium bicarbonate had no effect on plasma drug concentrations.

Conclusions and Clinical Relevance—After oral administration of carprofen in dogs, administration of AC effectively decreased maximum plasma carprofen concentration, compared with the control treatment, probably by decreasing carprofen absorption. Results suggest that AC can be used to reduce systemic carprofen absorption in dogs receiving an overdose of carprofen. Oral administration of 1 dose of sodium bicarbonate had no apparent impact on carprofen kinetics in dogs.

Full access
in American Journal of Veterinary Research

Abstract

Objective—To assess bioequivalence after oral, IM, and IV administration of racemic ketoprofen in pigs and to investigate the bioavailability after oral and IM administration.

Animals—8 crossbred pigs.

Procedures—Each pig received 4 treatments in a randomized crossover design, with a 6-day washout period. Ketoprofen was administered at 3 and 6 mg/kg, PO; 3 mg/kg, IM; and 3 mg/kg, IV. Plasma ketoprofen concentrations were measured by use of high-performance liquid chromatography for up to 48 hours. To assess bioequivalence, a 90% confidence interval was calculated for the area under the time-concentration curve (AUC) and maximum plasma concentration (Cmax).

Results—Equivalence was not detected in the AUCs among the various routes of administration nor in Cmax between oral and IM administration of 3 mg/kg. The bioavailability of ketoprofen was almost complete after each oral or IM administration. Mean ± SD Cmax was 5.09 ± 1.41 μg/mL and 7.62 ± 1.22 μg/mL after oral and IM doses of 3 mg/kg, respectively. Mean elimination half-life varied from 3.52 ± 0.90 hours after oral administration of 3 mg/kg to 2.66 ± 0.50 hours after IV administration. Time to peak Cmax after administration of all treatments was approximately 1 hour. Increases in AUC and Cmax were proportional when the orally administered dose was increased from 3 to 6 mg/kg.

Conclusions and Clinical Relevance—Orally administered ketoprofen was absorbed well in pigs, although bioequivalence with IM administration of ketoprofen was not detected. Orally administered ketoprofen may have potential for use in treating pigs.

Full access
in American Journal of Veterinary Research