Pharmacokinetics of Single-Dose Oral Meloxicam in Bottlenose Dolphins (Tursiops truncatus)
IAAAM 2013
Claire A. Simeone1*+; Mark Papich2; Jenny M. Meegan1; Hendrik Nollens3; Todd Schmitt3; Eric D. Jensen4; Cynthia R. Smith1
1National Marine Mammal Foundation, San Diego, California, 92106, USA; 2North Carolina State University College of Veterinary Medicine, Raleigh, North Carolina, 27607, USA; 3SeaWorld, San Diego, California, 92106, USA; 4US Navy Marine Mammal Program, SSC Pacific, San Diego, California, 92152, USA

Abstract

Meloxicam is a non-steroidal anti-inflammatory drug (NSAID), which carries known adverse effects, including gastrointestinal ulceration and acute renal injury. These side effects are dose-dependent (both in absolute dose and dosing interval), and vary greatly among species, emphasizing the importance of pharmacokinetic investigation prior to widespread use.1 Historically, use of NSAIDs in dolphins has been associated with rare fatal perforation of the connecting channel between the fundic chamber and pylorus; therefore caution has kept this class of drugs from widespread use in cetaceans.6 We hypothesize that cetaceans have an altered metabolism of this class of drugs, which may contribute to their apparent sensitivity.

The purpose of this study was to investigate the pharmacokinetics of meloxicam in bottlenose dolphins (Tursiops truncatus). Ten adult dolphins were administered a single oral dose of meloxicam at 0.1 mg/kg. Each animal contributed between three and seven serial blood samples at time points 1, 2, 4, 6, 8, 10, 12, 24, 48, 72, 96, 168, and 240 hours. No adverse hematological, biochemical or clinical changes were noted during the study period. Results revealed a peak plasma level (Cmax) of 0.96 ug/mL; time to peak concentration (Tmax) of 10.3 hours; and an elimination half-life of 79.5 hours. This research suggests that a single oral dose at 0.1 mg/kg provides a peak plasma level similar to what is considered therapeutic in other species.2,3 However, clearance of meloxicam in cetaceans appears significantly slower than in other species,4,5 and detectable drug levels were present for over 10 days.

Acknowledgements

The author would like to thank Drs. John Traversi and Stephanie Venn-Watson of the National Marine Mammal Foundation, and Dr. Steve Budsberg of University of Georgia College of Veterinary Medicine.

* Presenting author
+ Student presenter

Literature Cited

1.  Busch U, Schmid J, Heinzel G, Schmaus H, Baierl J, Huber C, Roth W. 1998. Pharmacokinetics of meloxicam in animals and the relevance to humans. Drug Metab Dispos 26(6):576–584.

2.  Carpenter JW, Pollock CG, Koch DE, Hunter RP. 2009. Single and multiple-dose pharmacokinetics of meloxicam after oral administration to the rabbit (Oryctolagus cuniculus). J Zoo Wildl Med 40(4): 601–606.

3.  Kreuder AJ, Coetzee JF, Wulf LW, Schleining JA, KuKanich B, Layman LL, Plummer PJ. 2012. Bioavailability and pharmacokinetics of oral meloxicam in llamas. BMC Vet Res 8(85):1–11.

4.  Lees P, Landoni MF, Giraudel J, Toutain PL. 2004. Pharmacodynamics and pharmacokinetics of nonsteroidal anti-inflammatory drugs in species of veterinary interest. J Vet Pharmacol Therap 27:479–490.

5.  Montoya L, Ambros L, Kreil V, Bonafine R, Albarellos G, Hallu R, Soraci A. 2004. A pharmacokinetic comparison of meloxicam and ketoprofen following oral administration to healthy dogs. Vet Res Comm 28(5):415–428.

6.  Van Bonn W. 2002. Perforation of the gastrointestinal tract in bottlenose dolphins (Tursiops truncatus). IAAAM 33rd Annual Conference Proceedings, Albufeira, Portugal; P. 137.

  
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Speaker Information
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Claire A. Simeone
National Marine Mammal Foundation
San Diego, CA, USA


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