Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling

Fosse, T. K., Toutain, P. L., Spadavecchia, C., Haga, H. A., Horsberg, T. E., Ranheim, B. Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling. J. vet. Pharmacol. Therap.34, 338–349. The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investi...

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Published inJournal of veterinary pharmacology and therapeutics Vol. 34; no. 4; pp. 338 - 349
Main Authors FOSSE, T. K., TOUTAIN, P. L., SPADAVECCHIA, C., HAGA, H. A., HORSBERG, T. E., RANHEIM, B.
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.08.2011
Wiley-Blackwell
Subjects
Animals
Anti-Inflammatory Agents, Non-Steroidal - chemistry
Anti-Inflammatory Agents, Non-Steroidal - pharmacokinetics
Anti-Inflammatory Agents, Non-Steroidal - therapeutic use
Body Temperature
Female
Fever - chemically induced
Fever - drug therapy
Fever - veterinary
Inflammation - chemically induced
Inflammation - drug therapy
Inflammation - veterinary
Kaolin
Ketoprofen - chemistry
Ketoprofen - pharmacokinetics
Ketoprofen - therapeutic use
Life Sciences
Male
Models, Biological
Pain - drug therapy
Pain - veterinary
Pain Measurement - veterinary
Swine - metabolism
Swine Diseases - chemically induced
Swine Diseases - drug therapy
Swine Diseases - metabolism
ketoprofen
pharmacokinetics
pharmacodynamics
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Abstract Fosse, T. K., Toutain, P. L., Spadavecchia, C., Haga, H. A., Horsberg, T. E., Ranheim, B. Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling. J. vet. Pharmacol. Therap.34, 338–349. The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo‐controlled study in piglets after intramuscular administration of 6 mg/kg racemic ketoprofen. The absorption half‐lives of both enantiomers were short, and S‐ketoprofen predominated over R‐ketoprofen in plasma. A kaolin‐induced inflammation model was used to evaluate the anti‐inflammatory, antipyretic and analgesic effects of ketoprofen. Skin temperatures increased after the kaolin injection, but the effect of ketoprofen was small. No significant antipyretic effects could be detected, but body temperatures tended to be lower in the ketoprofen‐treated piglets. Mechanical nociceptive threshold testing was used to evaluate the analgesic effects. The piglets in the ketoprofen‐treated group had significantly higher mechanical nociceptive thresholds compared to the piglets in the placebo group for 12–24 h following the treatment. Pharmacokinetic/pharmacodynamic modelling of the results from the mechanical nociceptive threshold testing gave a median IC50 for S‐ketoprofen of 26.7 μg/mL and an IC50 for R‐ketoprofen of 1.6 μg/mL. This indicates that R‐ketoprofen is a more potent analgesic than S‐ketoprofen in piglets. Estimated ED50 for racemic ketoprofen was 2.5 mg/kg.
AbstractList The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo-controlled study in piglets after intramuscular administration of 6 mg/kg racemic ketoprofen. The absorption half-lives of both enantiomers were short, and S-ketoprofen predominated over R-ketoprofen in plasma. A kaolin-induced inflammation model was used to evaluate the anti-inflammatory, antipyretic and analgesic effects of ketoprofen. Skin temperatures increased after the kaolin injection, but the effect of ketoprofen was small. No significant antipyretic effects could be detected, but body temperatures tended to be lower in the ketoprofen-treated piglets. Mechanical nociceptive threshold testing was used to evaluate the analgesic effects. The piglets in the ketoprofen-treated group had significantly higher mechanical nociceptive thresholds compared to the piglets in the placebo group for 12-24 h following the treatment. Pharmacokinetic/pharmacodynamic modelling of the results from the mechanical nociceptive threshold testing gave a median IC(50) for S-ketoprofen of 26.7 μg/mL and an IC(50) for R-ketoprofen of 1.6 μg/mL. This indicates that R-ketoprofen is a more potent analgesic than S-ketoprofen in piglets. Estimated ED(50) for racemic ketoprofen was 2.5 mg/kg.
Fosse, T. K., Toutain, P. L., Spadavecchia, C., Haga, H. A., Horsberg, T. E., Ranheim, B. Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling. J. vet. Pharmacol. Therap.34, 338–349. The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo‐controlled study in piglets after intramuscular administration of 6 mg/kg racemic ketoprofen. The absorption half‐lives of both enantiomers were short, and S‐ketoprofen predominated over R‐ketoprofen in plasma. A kaolin‐induced inflammation model was used to evaluate the anti‐inflammatory, antipyretic and analgesic effects of ketoprofen. Skin temperatures increased after the kaolin injection, but the effect of ketoprofen was small. No significant antipyretic effects could be detected, but body temperatures tended to be lower in the ketoprofen‐treated piglets. Mechanical nociceptive threshold testing was used to evaluate the analgesic effects. The piglets in the ketoprofen‐treated group had significantly higher mechanical nociceptive thresholds compared to the piglets in the placebo group for 12–24 h following the treatment. Pharmacokinetic/pharmacodynamic modelling of the results from the mechanical nociceptive threshold testing gave a median IC50 for S‐ketoprofen of 26.7 μg/mL and an IC50 for R‐ketoprofen of 1.6 μg/mL. This indicates that R‐ketoprofen is a more potent analgesic than S‐ketoprofen in piglets. Estimated ED50 for racemic ketoprofen was 2.5 mg/kg.
Fosse, T. K., Toutain, P. L., Spadavecchia, C., Haga, H. A., Horsberg, T. E., Ranheim, B. Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling. J. vet. Pharmacol. Therap. 34 , 338–349. The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo‐controlled study in piglets after intramuscular administration of 6 mg/kg racemic ketoprofen. The absorption half‐lives of both enantiomers were short, and S‐ketoprofen predominated over R‐ketoprofen in plasma. A kaolin‐induced inflammation model was used to evaluate the anti‐inflammatory, antipyretic and analgesic effects of ketoprofen. Skin temperatures increased after the kaolin injection, but the effect of ketoprofen was small. No significant antipyretic effects could be detected, but body temperatures tended to be lower in the ketoprofen‐treated piglets. Mechanical nociceptive threshold testing was used to evaluate the analgesic effects. The piglets in the ketoprofen‐treated group had significantly higher mechanical nociceptive thresholds compared to the piglets in the placebo group for 12–24 h following the treatment. Pharmacokinetic/pharmacodynamic modelling of the results from the mechanical nociceptive threshold testing gave a median IC 50 for S‐ketoprofen of 26.7 μg/mL and an IC 50 for R‐ketoprofen of 1.6 μg/mL. This indicates that R‐ketoprofen is a more potent analgesic than S‐ketoprofen in piglets. Estimated ED 50 for racemic ketoprofen was 2.5 mg/kg.
The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo-controlled study in piglets after intramuscular administration of 6 mg⁄ kg racemic ketoprofen. The absorption half-lives of both enantiomers were short, and S-ketoprofen predominated over R-ketoprofen in plasma. A kaolin-induced inflammation model was used to evaluate the antiinflammatory,antipyretic and analgesic effects of ketoprofen. Skin temperatures increased after the kaolin injection, but the effect of ketoprofen was small. No significant antipyretic effects could be detected, but body temperatures tended tobe lower in the ketoprofen-treated piglets. Mechanical nociceptive threshold testing was used to evaluate the analgesic effects. The piglets in the ketoprofentreatedgroup had significantly higher mechanical nociceptive thresholds compared to the piglets in the placebo group for 12–24 h following the treatment. Pharmacokinetic ⁄ pharmacodynamic modelling of the results from the mechanical nociceptive threshold testing gave a median IC50 for S-ketoprofen of 26.7 lg ⁄ mL and an IC50 for R-ketoprofen of 1.6 lg ⁄ mL. This indicates that Rketoprofenis a more potent analgesic than S-ketoprofen in piglets. Estimated ED50 for racemic ketoprofen was 2.5 mg⁄ kg.
Author FOSSE, T. K.
SPADAVECCHIA, C.
HAGA, H. A.
HORSBERG, T. E.
RANHEIM, B.
TOUTAIN, P. L.
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Issue 4
Keywords ketoprofen
pharmacokinetics
pharmacodynamics
Language English
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Snippet Fosse, T. K., Toutain, P. L., Spadavecchia, C., Haga, H. A., Horsberg, T. E., Ranheim, B. Ketoprofen in piglets: enantioselective pharmacokinetics,...
The chiral pharmacokinetics and pharmacodynamics of ketoprofen were investigated in a placebo-controlled study in piglets after intramuscular administration of...
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SubjectTerms Animals
Anti-Inflammatory Agents, Non-Steroidal - chemistry
Anti-Inflammatory Agents, Non-Steroidal - pharmacokinetics
Anti-Inflammatory Agents, Non-Steroidal - therapeutic use
Body Temperature
Female
Fever - chemically induced
Fever - drug therapy
Fever - veterinary
Inflammation - chemically induced
Inflammation - drug therapy
Inflammation - veterinary
Kaolin
Ketoprofen - chemistry
Ketoprofen - pharmacokinetics
Ketoprofen - therapeutic use
Life Sciences
Male
Models, Biological
Pain - drug therapy
Pain - veterinary
Pain Measurement - veterinary
Swine - metabolism
Swine Diseases - chemically induced
Swine Diseases - drug therapy
Swine Diseases - metabolism
Title Ketoprofen in piglets: enantioselective pharmacokinetics, pharmacodynamics and PK/PD modelling
URI https://api.istex.fr/ark:/67375/WNG-PSSNNJRL-V/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1365-2885.2010.01236.x
https://www.ncbi.nlm.nih.gov/pubmed/20950352
https://hal.inrae.fr/hal-02644267
Volume 34
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