Utility of systemic voriconazole in equine keratomycosis based on pharmacokinetic‐pharmacodynamic analysis of tear fluid following oral administration

Objective To clarify the detailed pharmacokinetics (PK) of orally administered voriconazole in tear fluid (TF) of horses for evaluating the efficacy of voriconazole secreted into TF against equine keratomycosis. Animals studied Five healthy Thoroughbred horses. Procedures Voriconazole was administra...

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Bibliographic Details
Published in:Veterinary ophthalmology 2020-07, Vol.23 (4), p.640-647
Main Authors: Tamura, Norihisa, Okano, Atsushi, Kuroda, Taisuke, Niwa, Hidekazu, Kusano, Kanichi, Matsuda, Yoshikazu, Fukuda, Kentaro, Mita, Hiroshi, Nagata, Shunichi
Format: Article
Language:English
Subjects:
Administration, Oral
Animals
Antifungal Agents - administration & dosage
Antifungal Agents - pharmacokinetics
Antifungal Agents - pharmacology
Antifungal Agents - therapeutic use
Area Under Curve
Aspergillus
Aspergillus - drug effects
Eye Infections, Fungal - drug therapy
Eye Infections, Fungal - veterinary
Female
horse
Horse Diseases - blood
Horse Diseases - drug therapy
Horses - metabolism
keratomycosis
Male
Microbial Sensitivity Tests
Original
pharmacodynamics
pharmacokinetics
tear fluid
Tears - metabolism
Voriconazole - administration & dosage
Voriconazole - pharmacokinetics
Voriconazole - pharmacology
Voriconazole - therapeutic use
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Summary:Objective To clarify the detailed pharmacokinetics (PK) of orally administered voriconazole in tear fluid (TF) of horses for evaluating the efficacy of voriconazole secreted into TF against equine keratomycosis. Animals studied Five healthy Thoroughbred horses. Procedures Voriconazole was administrated through a nasogastric tube to each horse at a single dose of 4.0 mg/kg. TF and blood samples were collected before and periodically throughout the 24 hours after administration. Voriconazole concentrations in plasma and TF samples were analyzed using liquid chromatography‐electrospray tandem‐mass spectrometry. The predicted voriconazole concentration in both samples following multiple dosing every 24 hours was simulated by the superposition principle. Results The mean maximum voriconazole concentrations in plasma and TF were 3.3 μg/mL at 1.5 h and 1.9 μg/mL at 1.6 h, respectively. Mean half‐life in both samples were 16.4 and 25.2 h, respectively. The ratio of predicted AUC0–24 at steady state in TF (51.3 μg∙h/mL) to previously published minimum inhibitory concentration (MIC) of Aspergillus and Fusarium species was >100 and 25.7, respectively. Conclusions This study demonstrated the detailed single‐dose PK of voriconazole in TF after oral administration and simulated the predicted concentration curves in a multiple oral dosing. Based on the analyses of PK‐PD, the simulation results indicated that repeated oral administration of voriconazole at 4.0 mg/kg/d achieves the ratio of AUC to MIC associated with treatment efficacy against Aspergillus species. The detailed PK‐PD analyses against pathogenic fungi in TF can be used to provide evidence‐based medicine for equine keratomycosis.
ISSN:1463-5216
1463-5224
DOI:10.1111/vop.12764