1. Academic Validation
  2. Pharmacokinetics of Ro 23-9424, a dual-action cephalosporin, in animals

Pharmacokinetics of Ro 23-9424, a dual-action cephalosporin, in animals

  • Antimicrob Agents Chemother. 1990 Oct;34(10):1895-900. doi: 10.1128/AAC.34.10.1895.
J G Christenson 1 K K Chan R Cleeland B Dix-Holzknecht H H Farrish Jr I H Patel A Specian
Affiliations

Affiliation

  • 1 Roche Research Center, Nutley, New Jersey 07110.
Abstract

Ro 23-9424 is a dual-action cephalosporin with an aminothiazolylmethoxyimino-type side chain at the 7 position and fleroxacin esterified at the 3' position. The new compound has broad and potent Antibacterial activity in vitro and in vivo, reflecting contributions from both the beta-lactam moiety and the Quinolone moiety. In Animals, the ester bond potentially could be hydrolyzed enzymatically or nonenzymatically, to yield the active metabolites desacetylcefotaxime and fleroxacin. The extent to which Ro 23-9424 acts in vivo as a true dual-action cephalosporin, or acts as a combination of active metabolites, is therefore a function of its pharmacokinetic properties. To investigate these properties, Ro 23-9424 was administered as a single intravenous dose of 20 mg/kg of body weight to mice, rats, dogs, and baboons. Timed plasma samples were assayed by an ion-paired high-pressure liquid chromatography method that allowed detection of both intact Ro 23-9424 and fleroxacin. The pharmacokinetic parameters of Ro 23-9424 were similar to published results for cefotaxime, while concentrations of fleroxacin in plasma were low and fairly constant (about 1 to 3 micrograms/ml) in all species, suggesting that excretion of the intact molecule is a major route of elimination for Ro 23-9424, as it is for cefotaxime. For technical reasons, urinary recovery of Ro 23-9424 was not quantitated, but intact Ro 23-9424 was found in high concentrations (greater than 400 micrograms/ml) in mouse urine aspirated directly from the bladder. In all species, low concentrations of free fleroxacin in plasma persisted after the elimination of Ro 23-9424 was complete, but fleroxacin did not accumulate unduly in a 14-day multiple-dose experiment in baboons. Thus, it seems likely that the activity seen in vivo is primarily due to intact Ro 23-9424, although the low levels of free fleroxacin may also have some therapeutic significance.

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