S. Carli

Pharmacokinetics, intraoperative effect and postoperative analgesia of tramadol in cats

Tramadol is a synthetic codeine analogue used as an analgesic in human and veterinary medicine, but not approved for use in cats. Tramadol (2 mg/kg) was administered intravenously (IV) as preoperative analgesic in 12 cats (6 males) undergoing surgical gonadectomy. The pharmacokinetic profile of the drug and its O-desmethyl metabolite were determined in 8 animals (4 males), while intraoperative effects and postoperative analgesia, estimated by subjective pain score (0-24), were evaluated in all. Mean intraoperative isoflurane consumption was reduced, but hypoventilation was not observed. Sex-related differences were not observed, particularly in terms of postoperative analgesia: rescue analgesic was never administered. Concentrations of the active O-desmethyl metabolite were persistently high in all the animals. Considering the results obtained in this study, tramadol, at the dose of 2 mg/kg IV, did not produce any evident intraoperative cardiorespiratory side effects and with additional investigation may prove to be an appropriate intraoperative analgesic in cats undergoing gonadectomy.

Cefquinome sulfate behavior after intramammary administration in healthy and infected cows

Maintenance of adequate drug concentration at the site of infection is an important problem in mastitis antibiotic therapy, and the efficacy of intramammary β-lactams can be optimized by maintaining the drug concentration at the site of infection above the minimum inhibitory concentration (MIC) as long as possible. The most important pharmacokinetic and pharmacodynamic parameter for efficacy evaluation is time during which drug concentrations exceed the MIC (t>MIC). In this study, we assessed the pharmacokinetic profile of cefquinome (CFQ) after repeated intramammary administration in healthy cows and cows subclinically infected with Staphylococcus aureus as well as the MIC of Staph. aureus field strains. In addition, the degree of drug passage was investigated from udder to bloodstream by measuring systemic drug absorption in healthy and infected animals. Cefquinome concentrations were quantified by HPLC (UV-visible detection) in milk samples collected from quarters and from blood serum samples. The systemic drug absorption was negligible in healthy and subclinically infected animals (maximum concentration 0.09±0.02 and 0.1±0.01 μg/mL in healthy and subclinically infected animals, respectively). The MIC(90) value for CFQ in Staph. aureus field strains (n=20) was 0.24 μg/mL. The pharmacokinetic and pharmacodynamic evaluation, determined by t>MIC, showed an equal persistence of CFQ in all quarters, indicating an equivalent activity of the drug regardless of the pathological status of the udder. Moreover, with literature data regarding CFQ MIC, the t>MIC has been calculated for other bacterial species.

Cefoperazone sodium preparation behavior after intramammary administration in healthy and infected cows

Selection of the antimicrobial agent and maintenance of adequate drug concentrations at the site of infection are the most relevant problems in mastitis antibiotic therapy. Intramammary drug efficacy can be maximized by keeping drug concentrations at the site of infection above the minimum inhibitory concentration (MIC) as long as possible; the most important pharmacokinetic and pharmacodynamic (PK/PD) measure for efficacy evaluation is time during which drug concentrations exceed the MIC (t>MIC). To evaluate this measure, the PK profile of cefoperazone (CFP) after single intramammary administration in healthy and subclinical infected Staphylococcus aureus cows and the MIC of Staph. aureus field strains were assessed. In addition, the degree of drug passage from udder to bloodstream was investigated by measuring systemic drug absorption in healthy and infected animals. Cefoperazone concentrations were quantified by HPLC in quarter milk samples and blood serum samples. Systemic drug absorption was negligible in healthy animals (0.020+/-0.006 microg/mL serum at 4 h), whereas it was higher in infected animals (0.102+/-0.079 microg/mL at 4h and 0.025 microg/mL at 24 h), probably due to the damage of epithelial cell junctions caused by subclinical infections. The MIC90 value for CFP in Staph. aureus field strains (n=24) was 0.64 microg/mL. The PK/PD evaluation, determined by t>MIC, showed a longer persistence of CFP in infected quarters than in healthy ones (mean residence time was 8.37+/-1.51 vs. 11.42+/-5.74 h in September and 2.07+/-0.43 vs. 3.31+/-0.91 h in October), with a t>MIC of 45+/-6 h for infected quarters versus 38+/-5 h for healthy quarters different only in October. This could mean a prolonged time in which microorganisms are exposed to drug activity and thus, a greater efficacy of the drug.

Pharmacokinetics of propofol in calves undergoing abdominal surgery

Pharmacokinetics of propofol in calves undergoing abdominal surgery P. Cagnardi & A. Zonca & M. Gallo & D. Pravettoni & N. Morandi & R. Villa & S. Carli Published online: 1 July 2009 # Springer Science + Business Media B.V. 2009

Pharmacokinetics of intravenous ketorolac in cats undergoing gonadectomy

AIM: To determine the pharmacokinetics of ketorolac tromethamine (0.5 mg/kg) when administered I/V to cats undergoing gonadectomy. METHODS: Ketorolac was administered to nine female and three male shorthair domestic cats as an I/V bolus of 0.5 mg/kg after intubation, and 20 minutes prior to ovariectomy or orchiectomy. Intra-operative cardiorespiratory variables were monitored and blood samples were collected over 24 hours. Concentrations of ketorolac in serum were determined by high-performance liquid chromatography to establish pharmacokinetic parameters. RESULTS: During surgery, mean end tidal isoflurane concentration was 1.63 (SD 0.24)% and normocapnia and spontaneous ventilation were maintained in all animals. The kinetics of ketorolac was described by a two-compartment model. The distribution and elimination half-lives were 0.09 (SD 0.06) and 4.14 (SD 1.18) hours, respectively. The body clearance was 56.8 (SD 33.1) mL/h/kg. The volume of distribution at steady-state and the mean residence time were 323.9 (SD 115.7) mL/kg and 6.47 (SD 2.86) hours, respectively. CONCLUSION AND CLINICAL RELEVANCE: On the basis of the results, concentrations of ketorolac in serum in cats were above the human effective concentrations for 5–6 hours postoperatively. However, other studies including a control group are advocated to further investigate the ketorolac kinetics and the analgesic efficacy in this species.

Pharmacokinetics in foremilk and antimicrobial activity of cephapirin following intramammary administration in healthy and Staphylococcus aureus-infected cows.

AIM: To evaluate the kinetic profile of cephapirin and detect differences in its milk disposition following intramammary administration in healthy, and subclinically Staphylococcus aureus infected, quarters of lactating cows, to assess the minimum inhibitory concentration (MIC) of cephapirin for Staph. aureus field isolates, and to calculate the time during which drug concentrations were above the MIC (T>MIC). METHODS: Five healthy and five Staph. aureus-infected lactating cows received cephapirin at 275 mg/quarter, twice at 12-hour intervals. Foremilk samples were manually collected from individual quarters before treatments and 2, 8, 12 hours after the last drug administration, and then every 12 hours until the tenth milking. Concentrations of cephapirin and desacetyl-cephapirin were measured in milk samples after solid phase extraction and high-performance liquid chromatography analysis. A non-compartmental model was applied to data to obtain pharmacokinetic results. Eleven Staph. aureus isolates from the study-infected quarters and 30 additional isolates from cows in another two farms in the same area were used to determine MIC for cephapirin using the microdilution broth method. RESULTS: Mean maximum drug concentrations were higher in milk from healthy quarters (1334.8 (SD 1322.7) µg/mL) than in the infected ones (234.7 (SD 141.4) µg/mL), but the elimination half-life was longer in the infected (4.8 (SD 1.9) hours) than uninfected (3.3 (SD 0.33) hours) quarters (p<0.05). Mean residence time was comparable in healthy and infected quarters (approximately 8 hours). The amounts of desacetyl-cephapirin recovered in the samples were very low (below 2%). The MIC90 for all field strains of Staph. aureus (n=41) was 0.25 μg/mL. The calculated T>MIC90 was 38 (SD 13), 27 (SD 11) and 35 (SD 8) hours after last treatment in healthy, suspected and infected quarters, respectively. CONCLUSION AND CLINICAL RELEVANCE: The intramammary administration of sodium cephapirin at 275 mg/quarter, twice every 12 hours in lactating cows resulted in higher drug concentrations in milk of quarters with no infection than in the subclinically infected ones. These concentrations were above the MIC90 for 35 hours in infected cows. According to these results intramammary administration of cephapirin at 12-hour intervals during lactation should be potentially effective against Staph. aureus infection, but studies of clinical efficacy are necessary for confirmation.

Flumequine in the goat: pharmacokinetics after intravenous and intramuscular administration.

The pharmacokinetics of flumequine, administered intravenously and intramuscularly at a single dose of 20 mg/kg, was investigated in healthy goats. After intravenous injection, flumequine distributed rapidly (t½α = 0.87±0.15 h) but was eliminated slowly (t½β = 7.12±1.27 h); mean clearance (Cl) and volume of distribution (V½αdss) were 0.32±0.03 (L/(h.kg) and 1.22±029 (L/kg), respectively. After intramuscular administration, the peakserum concentration (Cmax = 7.40±0.5 μg/ml) was reached in about 1.5 h (Tmax) and bioavailability was about 93%. Estimated flumequine serum levels following repeated intramuscular administration of the aqueous suspension used in the study (7.23±0.7 μg/ml and 4.82±0.47 μg/ml at intervals of 8 and 12 h, respectively) indicated that to maintain serum levels above MIC values for susceptible bacteria a dosage regimen of 20 mg/kg every 12 h is necessary by the intramuscular route.