RESUMEN
A granulocytopenic mouse model was used to elucidate the impact of dose spacing on the activity of netilmicin against Pseudomonas aeruginosa. A thigh infection was produced and then treated with netilmicin combined with azlocillin. Netilmicin was injected subcutaneously at decreasing doses every 20 min to result in plasma-concentration-time curves similar to those observed in patients on intravenous netilmicin treatment. A once-daily regimen was simulated and compared to a simulated conventional schedule of every 8 h. Identical total amounts of drug were used in both groups of comparatively treated mice. Therapeutic efficacy was quantitated by repeated determinations of surviving organisms in thigh homogenates. Combination therapy was significantly more effective than azlocillin treatment alone. In combination regimens the simulated once-daily netilmicin schedule killed the target organisms faster than the simulated thrice-daily regimen and was significantly more efficacious by 24 and 32 h in two out of three strains of Pseudomonas aeruginosa tested. It is concluded that the results of combination therapy of severe Pseudomonas aeruginosa infections in the immunocompromised host might be improved by choosing an aminoglycoside dosage interval of 24 h instead of the conventional 8 h.