The objective of this study was to evaluate the efficacy of regional intravenous (i.v.) injection of ceftiofur in delivery of this drug to joint fluid and plasma in a limb distal to a tourniquet in five, healthy, adult, mixed breed beef cattle. A tourniquet was positioned in the mid-metacarpal region, and 500 mg of ceftiofur was administered through a catheter in the dorsal common digital vein (DCDV). Plasma samples were collected from the catheter at 15, 30 and 45 min postinjection, and from the abaxial proper palmar vein (APPV) at 15 min postinjection. Synovial fluid was collected from the metacarpal phalangeal joint at 45 min postinjection. Ceftiofur concentrations were estimated in plasma and synovial fluid using high-pressure liquid chromatography (HPLC) and a microbiological assay utilizing Pasteurella haemolytica as the test organism. Both assays indicated highest plasma concentrations of ceftiofur at 15 min, with the concentrations declining with time. Concentrations of ceftiofur in plasma obtained from the DCDV were not significantly different from APPV levels, indicating rapid distribution of ceftiofur within the limb. Microbiological assay always demonstrated higher concentrations of ceftiofur compared with HPLC assay, because the former probably also detected the active metabolites of ceftiofur as well as the parent compound. At 45 min, ceftiofur concentrations determined by HPLC were 251+/-97 and 15+/-5 microg/mL in plasma and synovial fluid, respectively. Regional intravenous injection appears to be a feasible technique to produce rapid distribution of ceftiofur within the limb well above therapeutic concentrations.
Tramadol, a centrally acting opioid analgesic with monamine reuptake inhibition, was administered to six alpacas (43-71 kg) randomly assigned to two treatment groups, using an open, single-dose, two-period, randomized cross-over design at a dose of 3.4-4.4 mg/kg intravenously (i.v.) and, after a washout period, 11 mg/kg orally. Serum samples were collected and stored at -80°C until assayed by HPLC. Pharmacokinetic parameters were calculated. The mean half-lives (t(1/2)) i.v. were 0.85±0.463 and 0.520±0.256 h orally. The Cp(0) i.v. was 2467±540 ng/mL, and the C(max) was 1202±1319 ng/mL orally. T(max) occurred at 0.111±0.068 h orally. The area under the curve (AUC(0-∞)) i.v. was 895±189 and 373±217 ng*h/mL orally. The volume of distribution (V(d[area])) i.v. was 5.50±2.66 L/kg. Total body clearance (Cl) i.v. was 4.62±1.09 h; Cl/F for oral administration was 39.5±23 L/h/kg. The i.v. mean residence time (MRT) was 0.720±0.264. Oral adsorption (F) was low (5.9-19.1%) at almost three times the i.v. dosage with a large inter-subject variation. This may be due to binding with the rumen contents or enzymatic destruction. Assuming linear nonsaturable pharmacokinetics and absorption processes, a dosage of 6.7 times orally would be needed to achieve the same i.v. serum concentration of tramadol. The t(1/2) of all three metabolites was longer than the parent drug; however, O-DMT, N-DMT, and Di-DMT metabolites were not detectable in all of the alpacas. Because of the poor bioavailability and adverse effects noted in this study, the oral administration of tramadol in alpacas cannot be recommended without further research.
Reduction of naval infections through appropriate management including naval dipping is beneficial to the calf and the producer and is reported to decrease naval infection rates from 20-28% to 5-14%. Obviously, naval dipping is of great importance but obtaining tincture of iodine has become problematic. It has become necessary to develop other products that can be utilized to dry the umbilicus and assist in the prevention of navel infections. Hence, the aim of this study was to evaluate Super7+™ Navel Dip as an alternative to 7% tincture of iodine.
Six horses were administered either 15 or 20 mg/kg body weight (b.w.) procainamide (PA) as an intravenous (i.v.) dose over 10 min. The plasma concentrations of PA and N-acetylprocainamide (NAPA) as well as the pharmacodynamic effect (prolongation of the QT interval) were monitored. The PA plasma concentrations could be described by a one-compartment model with a t1/2 of 3.49 +/- 0.61 h. The total body clearance of PA was 0.395 +/- 0.090 l/hr/kg and the volume of distribution was 1.93 +/- 0.27 l/kg. As observed after PA administration, NAPA (an active metabolite) had a t1/2 longer than PA of 6.31 +/- 1.49 h. Peak NAPA concentrations (1.91 +/- 0.51 micrograms/ml) occurred at 5.2 h after the PA i.v. dose. The ratio of area under the curves for NAPA to PA was 0.46 +/- 0.15 which is similar to that expected in humans classified as slow acetylators. Percentage change in the QT interval was examined with respect to PA and PA + NAPA plasma concentrations. For PA, % delta QT = 41.2 log (PA) - 13.26 and correlations (r) ranged from 0.77 to 0.91 among the horses. In the case of PA+ NAPA, % delta QT = 57.3 log (PA + NAPA) - 31.83 and ranged from 0.77 to 0.90. No evidence of toxicity was noted with respect to changes in the PR interval.
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