Ceftaroline versus ceftriaxone in a highly penicillin-resistant pneumococcal pneumonia rabbit model using simulated human dosing.

Ceftaroline (CPT) is a new cephalosporin exhibiting bactericidal activity against Gram-positive organisms, including methicillin-resistant Staphylococcus aureus (MRSA) and multidrug-resistant Streptococcus pneumoniae (MDRSP), as well as common Gram-negative pathogens. This study investigated the in vivo efficacy of a 48-hour simulated human dose regimen of CPT compared with ceftriaxone (CRO) against isolates of S. pneumoniae with different susceptibilities to penicillin in a rabbit pneumonia model. Three S. pneumoniae strains were used: CRO-susceptible penicillin-susceptible S. pneumoniae (CRO-S PSSP), CRO-susceptible penicillin-intermediate S. pneumoniae (CRO-S PISP), and CRO-resistant penicillin-resistant S. pneumoniae (CRO-R PRSP). Animals were randomized to the control group (no treatment) (n = 22) or to a group given intravenous (IV) CPT human equivalent (HE) dosage (600 mg/12 h; n = 19) or IV CRO HE dosage (1 g/24 h; n = 19). The total doses needed to achieve the HE dosage were 71 and 82 mg/kg of body weight/24 h for CRO and CPT, respectively. One group of rabbits infected with the CRO-R PRSP strain received intramuscular (IM) administration of CPT (5 or 20 mg/kg twice daily; n = 5 for each). Evaluation of efficacy was based on bacterial counts in the lungs and spleen. For IV CPT and IV CRO, the mean areas under the concentration-time curves from 0 to 24 h (AUC(0-24)s) were 155 and 938 mg · h/liter, respectively, the maximum concentrations in serum (C(max)s) were 20 and 158 mg/liter, respectively, and the minimum concentrations in serum (C(min)s) were 1.3 and 6 mg/liter, respectively. Both agents effectively treated pulmonary infections caused by CRO-S PSSP or CRO-S PISP with complete bacterial eradication in the lungs and spleen after 2 days of treatment. Against PRSP, CPT demonstrated excellent bactericidal activity, reducing bacterial counts in the lungs and spleen by approximately 8 and 4 log units, respectively (P < 0.001); CRO treatment resulted in a 2-log-unit reduction in the bacterial counts in lungs that did not reach statistical significance. Twice-daily IM CPT (5 mg/kg) reduced the bacterial burden by approximately 6 log units in the lungs and 3 log units in the spleen, and the 20-mg/kg dosage effectively eradicated PRSP infection. These findings further validate the in vivo bactericidal activity of CPT against pneumococci.

Activity of a new cephalosporin, CXA-101 (FR264205), against beta-lactam-resistant Pseudomonas aeruginosa mutants selected in vitro and after antipseudomonal treatment of intensive care unit patients.

CXA-101, previously designated FR264205, is a new antipseudomonal cephalosporin. We evaluated the activity of CXA-101 against a highly challenging collection of beta-lactam-resistant Pseudomonas aeruginosa mutants selected in vitro and after antipseudomonal treatment of intensive care unit (ICU) patients. The in vitro mutants investigated included strains with multiple combinations of mutations leading to several degrees of AmpC overexpression (ampD, ampDh2, ampDh3, and dacB [PBP4]) and porin loss (oprD). CXA-101 remained active against even the AmpD-PBP4 double mutant (MIC = 2 microg/ml), which shows extremely high levels of AmpC expression. Indeed, this mutant showed high-level resistance to all tested beta-lactams, except carbapenems, including piperacillin-tazobactam (PTZ), aztreonam (ATM), ceftazidime (CAZ), and cefepime (FEP), a cephalosporin considered to be relatively stable against hydrolysis by AmpC. Moreover, CXA-101 was the only beta-lactam tested (including the carbapenems imipenem [IMP] and meropenem [MER]) that remained fully active against the OprD-AmpD and OprD-PBP4 double mutants (MIC = 0.5 microg/ml). Additionally, we tested a collection of 50 sequential isolates that were susceptible or resistant to penicillicins, cephalosporins, carbapenems, or fluoroquinolones that emerged during treatment of ICU patients. All of the mutants resistant to CAZ, FEP, PTZ, IMP, MER, or ciprofloxacin showed relatively low CXA-101 MICs (range, 0.12 to 4 microg/ml; mean, 1 to 2 microg/ml). CXA-101 MICs of pan-beta-lactam-resistant strains ranged from 1 to 4 microg/ml (mean, 2.5 microg/ml). As described for the in vitro mutants, CXA-101 retained activity against the natural AmpD-PBP4 double mutants, even when these exhibited additional overexpression of the MexAB-OprM efflux pump. Therefore, clinical trials are needed to evaluate the usefulness of CXA-101 for the treatment of P. aeruginosa nosocomial infections, particularly those caused by multidrug-resistant isolates that emerge during antipseudomonal treatments.

In vivo activity of a novel anti-methicillin-resistant Staphylococcus aureus cephalosporin, ceftaroline, against vancomycin-susceptible and -resistant Enterococcus faecalis strains in a rabbit endocarditis model: a comparative study with linezolid and vancomycin.

We assessed the in vitro and in vivo efficacy of the novel parenteral broad-spectrum cephalosporin ceftaroline against Enterococcus faecalis in time-kill experiments and in a rabbit endocarditis model with simulated human dosing. Ceftaroline was more active than either vancomycin or linezolid against vancomycin-sensitive and -resistant isolates of E. faecalis.