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Öğe Intravenous pharmacokinetics of moxifloxacin following simultaneous administration with flunixin meglumine or diclofenac in sheep(Wiley, 2020) Altan, Feray; Corum, Orhan; Yildiz, Ramazan; Faki, Hatice Eser; Ider, Merve; Ok, Mahmut; Uney, KamilIn this study, the pharmacokinetics of moxifloxacin (5 mg/kg) was determined following a single intravenous administration of moxifloxacin alone and co-administration with diclofenac (2.5 mg/kg) or flunixin meglumine (2.2 mg/kg) in sheep. Six healthy Akkaraman sheep (2 +/- 0.3 years and 53.5 +/- 5 kg of body weight) were used. A longitudinal design with a 15-day washout period was used in three periods. In the first period, moxifloxacin was administered by an intravenous (IV) injection. In the second and third periods, moxifloxacin was co-administered with IV administration of diclofenac and flunixin meglumine, respectively. The plasma concentration of moxifloxacin was assayed by high-performance liquid chromatography. The pharmacokinetic parameters were calculated using a two-compartment open pharmacokinetic model. Following IV administration of moxifloxacin alone, the mean elimination half-life (t(1/2 beta)), total body clearance (Cl-T), volume of distribution at steady state (V-dss) and area under the curve (AUC) of moxifloxacin were 2.27 hr, 0.56 L h(-1) kg(-1), 1.66 L/kg and 8.91 hr*mu g/ml, respectively. While diclofenac and flunixin meglumine significantly increased the t(1/2 beta) and AUC of moxifloxacin, they significantly reduced the Cl-T and V-dss. These results suggest that anti-inflammatory drugs could increase the therapeutic efficacy of moxifloxacin by altering its pharmacokinetics.Öğe Pharmacokinetics and bioavailability of cefquinome and ceftriaxone in premature calves(Wiley, 2019) Corum, Orhan; Yildiz, Ramazan; Ider, Merve; Altan, Feray; Ok, Mahmut; Uney, KamilThe aim of this study was to evaluate the pharmacokinetics and bioavailability of cefquinome (CFQ) and ceftriaxone (CTX) following intravenous (IV) and intramuscular (IM) administrations in premature calves. Using a parallel design, 24 premature calves were randomly divided into the two antibiotic groups. Each of the six animals in the first group received CFQ (2 mg/kg) through IV or IM administration. The second group received CTX (20 mg/kg) via the same administration route. Plasma concentrations of the drugs were analyzed by high-performance liquid chromatography and noncompartmental methods. Mean pharmacokinetic parameters of CFQ and CTX following IV administration were as follows: elimination half-life (t(1/2 lambda z)) 1.85 and 3.31 hr, area under the plasma concentration-time curve (AUC(0-infinity)) 15.74 and 174 hr * mu g/ml, volume of distribution at steady-state 0.37 and 0.45 L/kg, and total body clearance 0.13 and 0.12 L hr(-1) kg(-1), respectively. Mean pharmacokinetic parameters of CFQ and CTX after IM injection were as follows: peak concentration 4.56 and 25.04 mu g/ml, time to reach peak concentration 1 and 1.5 hr, t(1/2 lambda z) 4.74 and 3.62 hr, and AUC(0-infinity) 22.75 and 147 hr * mu g/ml, respectively. The bioavailability of CFQ and CTX after IM injection was 141% and 79%, respectively. IM administration of CFQ (2 mg/kg) and CTX (20 mg/kg) can be recommended at 12-hr interval for treating infections caused by susceptible bacteria, with minimum inhibitory concentration values of <= 0.5 and <= 4 mu g/ml, respectively, in premature calves. However, further research is indicated to assess the pharmacokinetic parameters following multiple doses of the drug in premature calves.Öğe Pharmacokinetics of enrofloxacin and danofloxacin in premature calves(Wiley, 2019) Corum, Orhan; Altan, Feray; Yildiz, Ramazan; Ider, Merve; Ok, Mahmut; Uney, KamilThe aim of this study was to determine the pharmacokinetics/pharmacodynamics of enrofloxacin (ENR) and danofloxacin (DNX) following intravenous (IV) and intramuscular (IM) administrations in premature calves. The study was performed on twenty-four calves that were determined to be premature by anamnesis and general clinical examination. Premature calves were randomly divided into four groups (six premature calves/group) according to a parallel pharmacokinetic (PK) design as follows: ENR-IV (10 mg/kg, IV), ENR-IM (10 mg/kg, IM), DNX-IV (8 mg/kg, IV), and DNX-IM (8 mg/kg, IM). Plasma samples were collected for the determination of tested drugs by high-pressure liquid chromatography with UV detector and analyzed by noncompartmental methods. Mean PK parameters of ENR and DNX following IV administration were as follows: elimination half-life (t(1/2 lambda z)) 11.16 and 17.47 hr, area under the plasma concentration-time curve (AUC(0-48)) 139.75 and 38.90 hr*mu g/ml, and volume of distribution at steady-state 1.06 and 4.45 L/kg, respectively. Total body clearance of ENR and DNX was 0.07 and 0.18 L hr(-1) kg(-1), respectively. The PK parameters of ENR and DNX following IM injection were t(1/2 lambda z) 21.10 and 28.41 hr, AUC(0-48) 164.34 and 48.32 hr*mu g/ml, respectively. The bioavailability (F) of ENR and DNX was determined to be 118% and 124%, respectively. The mean AUC(0-48CPR)/AUC(0-48ENR) ratio was 0.20 and 0.16 after IV and IM administration, respectively, in premature calves. The results showed that ENR (10 mg/kg) and DNX (8 mg/kg) following IV and IM administration produced sufficient plasma concentration for AUC(0-24)/minimum inhibitory concentration (MIC) and maximum concentration (C-max)/MIC ratios for susceptible bacteria, with the MIC90 of 0.5 and 0.03 mu g/ml, respectively. These findings may be helpful in planning the dosage regimen for ENR and DNX, but there is a need for further study in naturally infected premature calves.
