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  • Author or Editor: Kristine T. Siao x
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Abstract

Objective—To determine the pharmacokinetics of gabapentin in cats after IV and oral administration.

Animals—6 healthy female adult domestic shorthair cats.

Procedures—Gabapentin was administered IV (4 mg/kg) or orally (10 mg/kg) in a crossover randomized design. Blood samples were obtained immediately before gabapentin administration and at various times up to 960 minutes after IV administration or up to 1,440 minutes after oral administration. Blood samples were immediately transferred to tubes that contained EDTA and were centrifuged at 4°C. Plasma was harvested and stored at −20°C until analysis. Plasma concentrations of gabapentin were determined by use of liquid chromatography-mass spectrometry. Gabapentin concentration-time data were fit to compartment models.

Results—A 3-compartment model with elimination from the central compartment best described the disposition of gabapentin administered IV to cats, but a 1-compartment model best described the disposition of gabapentin administered orally to cats. After IV administration, the mean ± SEM apparent volume of the central compartment, apparent volume of distribution at steady state, and clearance and the harmonic mean ± jackknife pseudo-SD for terminal half-life were 90.4 ± 11.3 mL/kg, 650 ± 14 mL/kg, 3 ± 0.2 mL/min/kg, and 170 ± 21 minutes, respectively. Mean ± SD systemic availability and harmonic mean ± jackknife pseudo-SD terminal half-life after oral administration were 88.7 ± 11.1% and 177 ± 25 minutes, respectively.

Conclusions and Clinical Relevance—The disposition of gabapentin in cats was characterized by a small volume of distribution and a low clearance.

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in American Journal of Veterinary Research

Abstract

Objective—To characterize the pharmacokinetics of remifentanil in conscious cats and cats anesthetized with isoflurane.

Animals—6 cats.

Procedures—Remifentanil (1 μg/kg/min for 5 minutes) was administered IV in conscious cats or cats anesthetized with 1.63% isoflurane in oxygen in a randomized crossover design. Blood samples were obtained immediately prior to remifentanil administration and every minute for 10 minutes, every 2 minutes for 10 minutes, and every 5 minutes for 10 minutes after the beginning of the infusion. Blood was immediately transferred to tubes containing citric acid, flash frozen in liquid nitrogen, and stored at −80°C until analysis. Blood remifentanil concentration was determined by use of liquid chromatography–mass spectrometry. Remifentanil concentration-time data were fitted to compartment models.

Results—A 2-compartment model (with zero-order input because of study design) best described the disposition of remifentanil in awake and isoflurane-anesthetized cats. The apparent volume of distribution of the central compartment, the apparent volume of distribution at steady state, the clearance, and the terminal half-life (median [range]) were 1,596 (1,164 to 2,111) and 567 (278 to 641) mL/kg, 7,632 (2,284 to 76,039) and 1,651 (446 to 29,229) mL/kg, 766 (408 to 1,473) and 371 (197 to 472) mL/min/kg, and 17.4 (5.5 to 920.3) and 15.7 (3.8 to 410.3) minutes in conscious and anesthetized cats, respectively.

Conclusions and Clinical Relevance—The disposition of remifentanil in cats was characterized by a high clearance. Isoflurane anesthesia significantly decreased the volume of the central compartment, likely by decreasing blood flow to vessel-rich organs.

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in American Journal of Veterinary Research

Abstract

Objective—To determine the pharmacokinetics of dexmedetomidine administered as a short-duration IV infusion in isoflurane-anesthetized cats.

Animals—6 healthy adult domestic female cats.

Procedures—Dexmedetomidine hydrochloride was injected IV (10 μg/kg over 5 minutes [rate, 2 μg/kg/min]) in isoflurane-anesthetized cats. Blood samples were obtained immediately prior to and at 1, 2, 5, 6, 7, 10, 15, 30, 60, 90, 120, 240, and 480 minutes following the start of the IV infusion. Collected blood samples were transferred to tubes containing EDTA, immediately placed on ice, and then centrifuged at 3,901 × g for 10 minutes at 4°C. The plasma was harvested and stored at −20°C until analyzed. Plasma dexmedetomidine concentrations were determined by means of liquid chromatography–mass spectrometry. Dexmedetomidine plasma concentration-time data were fitted to compartmental models.

Results—A 2-compartment model with input in and elimination from the central compartment best described the disposition of dexmedetomidine administered via short-duration IV infusion in isoflurane-anesthetized cats. Weighted mean ± SEM apparent volume of distribution of the central compartment and apparent volume of distribution at steady-state were 402 ± 47 mL/kg and 1,701 ± 200 mL/kg, respectively; clearance and terminal half-life (harmonic mean ± jackknife pseudo-SD) were 6.3 ± 2.8 mL/min/kg and 198 ± 75 minutes, respectively. The area under the plasma concentration curve and maximal plasma concentration were 1,061 ± 292 min•ng/mL and 17.6 ± 1.8 ng/mL, respectively.

Conclusions and Clinical Relevance—Disposition of dexmedetomidine administered via short-duration IV infusion in isoflurane-anesthetized cats was characterized by a moderate clearance and a long terminal half-life.

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in American Journal of Veterinary Research