Clinical pharmacology of apramycin in calves.

The minimal inhibitory concentrations (MIC) of apramycin, a unique aminocyclitol antibiotic, were compared with the MIC of dihydrostreptomycin and neomycin for 323 Salmonella, 178 Escherichia coli and twenty-six Pasteurella multocida isolates recovered from newborn calves. Apramycin exhibited better in vitro anti-bacterial activity than dihydrostreptomycin and neomycin; isolates of Salmonella group B and E. coli resistant to the latter were sensitive to apramycin. The two-compartment open model was appropriate for the analysis of serum apramycin concentrations measured after intravenous (i.v.) administration. The distribution half-life (t 1/2 alpha) of the drug was 28 min, the elimination half-life (t 1/2 beta) was 4.4 h, and the apparent volume of distribution (V1) and the distribution volume at steady state (Vdss) were 0.34 and 0.71 l/kg, respectively. The drug was quickly and completely absorbed after intramuscular (i.m.) injection; peak serum drug concentrations were directly related to the dose administered, they were obtained 1-2 h after treatment and the i.m. t 1/2 beta was 5 h. There was no evidence of drug accumulation in the serum after three daily i.m. injections at 20 mg/kg. More than 95% of the i.v. and i.m. doses were recovered in the urine within 96 h post-treatment but the cumulative percentage of drug recovery in the urine after oral treatment was 11%. The durations of free drug concentrations in the tissues after i.v. and i.m. injection were estimated from the serum drug level data, percent of serum protein binding, Vdss, t 1/2 beta, and the MIC. Computations showed that apramycin should be administered i.m. at 20 mg/kg every 24 h in order to maintain in tissues potentially effective drug concentrations sufficient to inhibit 50% of the Salmonella, E. coli, and P. multocida isolates, and at 12-h intervals to inhibit 90% of the isolates.