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Phenylbutazone in the horse: a review.
Abstract: Phenylbutazone is an acidic, lipophilic, non-steroidal anti-inflammatory drug (NSAID). It is extensively metabolized in the horse. The metabolites so far identified, oxyphenbutazone, gamma-hydroxyoxyphenbutazone, account for some 25-30% of administered dose over 24 h. The plasma half-life of phenylbutazone and termination of its pharmacological action are determined primarily by its rate of hepatic metabolism. Phenylbutazone acts by inhibiting the cyclooxygenase enzyme system, which is responsible for synthesis of prostanoids such as PGE2. It appears to act on prostaglandin-H synthase and prostacyclin synthase, after conversion by prostaglandin-H synthase to reactive intermediates. It markedly reduces prostanoid-dependent swelling, edema, erythema, and hypersensitivity to pain in inflamed tissues. Its principal use in the horse is for treatment of soft tissue inflammation. Phenylbutazone is highly bound (greater than 98%) to plasma protein. After i.v. injection, blood levels decline with an elimination half-life of 3-10 h. The plasma kinetics of phenylbutazone may be dose dependent, with the plasma half-life increasing as the drug dosage level increases. Plasma residues of the drug at 24 h after a single i.v. dose of 2 g/450 kg average about 0.9 microgram/ml, but considerable variation occurs. If dosing is repeated, the plasma residue accumulates to give mean residual blood levels of approximately 4.5 microgram/ml on Day 5 after 4 days of dosing. Approximately similar blood levels are found after a combination of oral and i.v. dosing. Experiments on large numbers of horses in training have been undertaken to ascertain the population distributions of residual blood levels after such dosing schedules. Absorption of phenylbutazone from the gastrointestinal tract is influenced by the dose administered and the relationship of dosing to feeding. Access to hay can delay the time of peak plasma concentration to 18 h or longer. Under optimal conditions, the bioavailability of oral phenylbutazone is probably in the region of 70%. Paste preparations may be more slowly absorbed than other preparations and yield higher residual plasma levels at 24 h after dosing, but further controlled studies are required. Phenylbutazone is easily detected in the plasma and urine of horses but concentrations in saliva are low. It is quantitated for forensic purposes by HPLC. The variability of this method between laboratories is about +/- 25%. Increasing urinary pH increases the urinary concentration of phenylbutazone and its metabolites up to 200-fold.(ABSTRACT TRUNCATED AT 400 WORDS)
Publication Date: 1986-03-01 PubMed ID: 3517382DOI: 10.1111/j.1365-2885.1986.tb00008.xGoogle Scholar: Lookup The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Journal Article
- Research Support
- Non-U.S. Gov't
- Review
- Adverse Effects
- Anti-inflammatory
- Bioavailability
- Biological Half-Life
- Equine Health
- Hepatic Function
- High-performance Liquid Chromatography (HPLC)
- Horse Management
- Horses
- Intravenous Administration
- Metabolites
- NSAID
- Oral Administration
- Pharmaceuticals
- Pharmacodynamics
- Pharmacokinetics
- Phenylbutazone
- Plasma
- Soft Tissue
- Veterinary Medicine
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
The research article provides a comprehensive review of phenylbutazone, a non-steroidal anti-inflammatory drug (NSAID), detailing its metabolization process, pharmacokinetics, and therapeutic uses in horses. The text further discusses how phenylbutazone functions, the influence of dosage on its plasma half-life, the impact of feeding schedules on its absorption, and its detectability for forensic analysis.
Phenylbutazone and Its Metabolites
- The study recounts that phenylbutazone is thoroughly metabolized in horses. It mentions two metabolites in particular: oxyphenbutazone and gamma-hydroxyoxyphenbutazone. Together, these metabolites account for roughly 25–30% of the administered dose over a 24-hour period.
- The half-life of phenylbutazone and the termination of its pharmacological actions are predominantly dictated by its rate of hepatic metabolism.
Pharmacological Action of Phenylbutazone
- Phenylbutazone functions by inhibiting the cyclooxygenase enzyme system, which is responsible for the synthesis of prostanoids such as PGE2.
- It acts on prostaglandin-H synthase and prostacyclin synthase, after they are converted into reactive intermediates by prostaglandin-H synthase.
- It significantly reduces prostanoid-dependent swelling, edema, erythema, and hypersensitivity to pain in inflamed tissues. This makes it key for treating soft tissue inflammation in horses.
Phenylbutazone Plasma Kinetics
- The plasma kinetics of phenylbutazone can be dose-dependent, with a longer plasma half-life observed with increased drug dosage.
- Phenylbutazone has a high degree of plasma protein binding. After INTRAVENOUS ADMINISTRATION, the drug’s blood levels decrease with an elimination half-life of 3–10 hours.
- If dosing is continued, plasma residues of the drug tend to accumulate over time.
Absorption of Phenylbutazone
- Absorption of the drug from the gastrointestinal tract is affected by dosage and feeding schedules. If horses have access to hay, the peak plasma concentration may be delayed to 18 hours or longer.
- Oral bioavailability of phenylbutazone might be around 70% under optimal conditions. Paste preparations may be absorbed more slowly and result in higher residual plasma levels 24 hours post-dosing.
Detection and Analysis
- Phenylbutazone is easily detected in the plasma and urine of horses for forensic purposes, measured using high-performance liquid chromatography (HPLC). The variability of this method across different labs is approximately +/- 25%.
- Increasing the urinary pH can enhance the urinary concentration of phenylbutazone and its metabolites by up to 200 times.
Cite This Article
APA
Tobin T, Chay S, Kamerling S, Woods WE, Weckman TJ, Blake JW, Lees P.
(1986).
Phenylbutazone in the horse: a review.
J Vet Pharmacol Ther, 9(1), 1-25.
https://doi.org/10.1111/j.1365-2885.1986.tb00008.x Publication
Researcher Affiliations
MeSH Terms
- Animals
- Biological Availability
- Blood Proteins / metabolism
- Horse Diseases / drug therapy
- Horses / physiology
- Kinetics
- Pain / drug therapy
- Pain / veterinary
- Phenylbutazone / adverse effects
- Phenylbutazone / metabolism
- Phenylbutazone / therapeutic use
- Protein Binding
Citations
This article has been cited 10 times.- Mercer MA, Davis JL, McKenzie HC. The Clinical Pharmacology and Therapeutic Evaluation of Non-Steroidal Anti-Inflammatory Drugs in Adult Horses. Animals (Basel) 2023 May 10;13(10).
- Waller P, Lomnicka I, Lucas C, Johnson S, Dirikolu L. The medication violations in racehorses at Louisiana racetracks from 2016 to 2020. Vet Med Sci 2022 Mar;8(2):553-560.
- Knych HK, Finno CJ, Baden R, Arthur RM, McKemie DS. Identification and characterization of the enzymes responsible for the metabolism of the non-steroidal anti-inflammatory drugs, flunixin meglumine and phenylbutazone, in horses. J Vet Pharmacol Ther 2021 Jan;44(1):36-46.
- Worboys M, Toon E. Phenylbutazone (Bute, PBZ, EPZ): one drug across two species. Hist Philos Life Sci 2018 Mar 26;40(2):27.
- Baron MG, Mintram KS, Owen SF, Hetheridge MJ, Moody AJ, Purcell WM, Jackson SK, Jha AN. Pharmaceutical Metabolism in Fish: Using a 3-D Hepatic In Vitro Model to Assess Clearance. PLoS One 2017;12(1):e0168837.
- Mozaffari AA, Derakhshanfar A. Evaluation of the brain, renal, and hepatic effects of flunixin meglumine, ketoprofen, and phenylbutazone administration in Iranian fat-tailed sheep. Trop Anim Health Prod 2011 Oct;43(7):1389-93.
- Mills PC, Ng JC, Auer DE. The effect of the acute-phase response on in vitro drug metabolism and plasma protein binding in the horse. Vet Res Commun 1997 Jul;21(5):361-8.
- Semrad SD, Dubielzig R. Effect of repeated administration of tirilazad mesylate on healthy and endotoxemic calves: a pilot study. Can J Vet Res 1994 Jan;58(1):67-70.
- Geor RJ, Petrie L, Papich MG, Rousseaux C. The protective effects of sucralfate and ranitidine in foals experimentally intoxicated with phenylbutazone. Can J Vet Res 1989 Apr;53(2):231-8.
- Tesena P, Vinijkumthorn R, Preuksathaporn T, Piyakul P, Chotikaprakal T, Sirireugwipas R, Wong-Aree K, Prapaiwan N. Evaluation of gastrointestinal tract lesions and serum malondialdehyde levels after repeated oral administration of phenylbutazone in horses. Vet Res Commun 2024 Aug;48(4):2343-2355.
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