TY - JOUR
T1 - Pharmacokinetics of ketamine and its metabolite, norketamine, after intravenous administration of a bolus of ketamine to isoflurane-anesthetized dogs
AU - Pypendop, Bruno H
AU - Ilkiw, Jan
PY - 2005/12
Y1 - 2005/12
N2 - Objective - To determine the pharmacokinetics of ketamine and norketamine in isoflurane-anesthetized dogs. Animals - 6 dogs. Procedure - The minimum alveolar concentration (MAC) of isoflurane was determined in each dog. Isoflurane concentration was then set at 0.75 times the individual's MAC, and ketamine (3 mg/kg) was administered IV. Blood samples were collected at various times following ketamine administration. Blood was immediately centrifuged, and the plasma separated and frozen until analyzed. Ketamine and norketamine concentrations were measured in the plasma samples by use of liquid chromatography-mass spectrometry. Ketamine concentration-time data were fitted to compartment models. Norketamine concentration-time data were examined by use of noncompartmental analysis. Results - The MAC of isoflurane was 1.43 ± 0.18% (mean ± SD). A 2-compartment model best described the disposition of ketamine. The apparent volume of distribution of the central compartment, the apparent volume of distribution at steady state, and the clearance were 371.3 ± 162 mL/kg, 4,060.3 ± 2,405.7 mL/kg, and 58.2 ± 173 mL/min/kg, respectively. Norketamine rapidly appeared in plasma following ketamine administration and had a terminal half-life of 63.6 ± 23.9 minutes. A large variability in plasma concentrations, and therefore pharmacokinetic parameters, was observed among dogs for ketamine and norketamine. Conclusions and clinical relevance - In isoflurane-anesthetized dogs, a high variability in the disposition of ketamine appears to exist among individuals. The disposition of ketamine maybe difficult to predict in clinical patients.
AB - Objective - To determine the pharmacokinetics of ketamine and norketamine in isoflurane-anesthetized dogs. Animals - 6 dogs. Procedure - The minimum alveolar concentration (MAC) of isoflurane was determined in each dog. Isoflurane concentration was then set at 0.75 times the individual's MAC, and ketamine (3 mg/kg) was administered IV. Blood samples were collected at various times following ketamine administration. Blood was immediately centrifuged, and the plasma separated and frozen until analyzed. Ketamine and norketamine concentrations were measured in the plasma samples by use of liquid chromatography-mass spectrometry. Ketamine concentration-time data were fitted to compartment models. Norketamine concentration-time data were examined by use of noncompartmental analysis. Results - The MAC of isoflurane was 1.43 ± 0.18% (mean ± SD). A 2-compartment model best described the disposition of ketamine. The apparent volume of distribution of the central compartment, the apparent volume of distribution at steady state, and the clearance were 371.3 ± 162 mL/kg, 4,060.3 ± 2,405.7 mL/kg, and 58.2 ± 173 mL/min/kg, respectively. Norketamine rapidly appeared in plasma following ketamine administration and had a terminal half-life of 63.6 ± 23.9 minutes. A large variability in plasma concentrations, and therefore pharmacokinetic parameters, was observed among dogs for ketamine and norketamine. Conclusions and clinical relevance - In isoflurane-anesthetized dogs, a high variability in the disposition of ketamine appears to exist among individuals. The disposition of ketamine maybe difficult to predict in clinical patients.
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U2 - 10.2460/ajvr.2005.66.2034
DO - 10.2460/ajvr.2005.66.2034
M3 - Article
C2 - 16379643
AN - SCOPUS:33645217785
VL - 66
SP - 2034
EP - 2038
JO - American Journal of Veterinary Research
JF - American Journal of Veterinary Research
SN - 0002-9645
IS - 12
ER -