Abstract: Although the mucoid form of Pseudomonas aeruginosa (Pa) is largely responsible for the progression of lung disease in cystic fibrosis (CF), the relationship between factors relating daily-care regimes to mucoidy acquisition are as yet poorly investigated. Fifty-two CF patients registered at the CF centre of Dijon, France, were retrospectively evaluated from the date of Pa colonization either to the first positive sputum culture for mucoid Pa (n = 26) or to the last culture in which the Pa remained non-mucoid (n = 26). All clinical, pathological and therapeutic events were recorded. The association between the parameters collected and mucoid transition of Pa was assessed in a Cox model with time-dependant covariables. The mean follow-up was 4.7 + or - 4.3 years. Three independent parameters were associated with the higher risk of mucoid transition of Pa: persistence of Pa in sputum (OR 7.89; p <0.01), use of inhaled bronchodilators (OR 3.40; p = 0.04), and the use of inhaled colimycin (OR 4.04; p = 0.02). Isolation of Staphylococcus aureus, Haemophilus influenzae or Streptococcus pneumoniae in sputum was associated with a lower risk (OR 0.24; p < 0.01). Mucoid transition of Pa was associated with variables that reflected the severity of both lung disease and Pa colonization. Although they do not lead to prophylactic measures, these results corroborate the need to avoid Pa persistence.
Abstract: In this study, we compared the efficacy of ceftazidime (CAZ) intermittent versus continuous infusion with or without tobramycin (TOB) for the treatment of pneumonia caused by Pseudomonas aeruginosa in rabbits. Treatments were humanised and mimicked intermittent CAZ (iCAZ) (2g three times daily), continuous CAZ (cCAZ) (4g once daily (qd)) and TOB (10mg/kg qd). Minimum inhibitory concentrations (MICs) were 1mg/L and 4mg/L for TOB and CAZ, respectively. Bacterial efficacy in lungs was as follows: control, 9+/-0.6 colony-forming units (CFU)/g; TOB monotherapy, 8+/-0.5CFU/g; iCAZ monotherapy, 7.8+/-1.4CFU/g; cCAZ monotherapy, 8+/-0.4CFU/g (P = 0.005); and iCAZ+TOB, 8+/-0.5CFU/g; cCAZ+TOB, 7.2+/-0.3CFU/g (P < 0.05). Bacterial efficacy in the spleen was as follows (% sterile): control, 4+/-1.6CFU/g (0%); TOB monotherapy, 1.7+/-1.2CFU/g (60%); iCAZ monotherapy, 3.5+/-0.5CFU/g (17%); cCAZ monotherapy, 1.5+/-0.6CFU/g (75%) (P = 0.02); and iCAZ+TOB, 2.1+/-0.6CFU/g (50%); cCAZ+TOB, 1.2+/-0.3CFU/g (82%) (P < 0.05). The time the drug concentration was above the MIC (T > MIC) was 62% and 99% for iCAZ and cCAZ, respectively. We conclude that CAZ is more effective when administered continuously, especially for the sterilisation of septicaemia. A synergistic therapeutic effect of the association CAZ+TOB was observed in vivo, which can be explained by the longer T > MIC of cCAZ. These findings suggest that continuous treatment with 4g CAZ could be appropriate in patients with P. aeruginosa infections.
Abstract: We investigated the efficacy of 2 formulations of Augmentin on experimental pneumonia due to Haemophilus influenzae (HI) in rabbits. Two strains were used (H128 and 401285) with amoxicillin/clavulanic acid MICs of 1/0.5 mg/l and 4/2 mg/l. Pneumonia was induced in immunocompetent rabbits by inoculation of 10 log(10) CFU HI. The treatments were infused by using computer controlled pumps in order to mimic the human pharmacokinetic (PK) profile of either conventional Augmentin treatment (875/125 mg twice daily) or the sustained release formulation (SR: 2000/125 mg twice daily). After 2 d of treatment, the bacterial concentrations in the lungs were similar for both strains and both treatments: isolate H128, conventional Augmentin reduced bacterial numbers to 3.8+/-2.1 log(10) CFU/g and Augmentin SR to 3.1+/-2.4 log(10) CFU/g; isolate 401285, conventional Augmentin to 3.5+/-2. Thus, both treatments demonstrated similar efficacy against H. influenzae pneumonia in this model, even when induced by a strain with an amoxicillin/clavulanic acid MIC of 4/2 mg/l. These results support current breakpoints for conventional Augmentin against H. influenzae and suggest that Augmentin SR is at least as effective against these isolates.
Abstract: Aminoglycosides are of major importance in treating Pseudomonas aeruginosa pneumonia (PAP). However, their efficacy may be compromised by low-level resistance caused by the inducible MexXY multidrug efflux pump. In the present study, the impact of the MexXY efflux pump was investigated in vivo in an experimental model of PAP in rabbits treated with intravenous tobramycin. Three strains were used to induce PAP in rabbits: PAO1 (wild-type strain; MIC 1 mg/L), mutant 11B (mexX::Tn501; no expression of MexXY; MIC 0.5 mg/L) and mutant MutGR1 (MexZ null; constitutive expression of MexXY; MIC 2 mg/L). Five hours after inoculation, treatment with tobramycin (10 mg/kg) was implemented (peak serum concentration 30 mg/L). The animals were killed humanely 48 h after inoculation, and the residual pulmonary bacterial concentration was determined. Selection of bacteria expressing MexXY was determined by plating lung homogenates on agar plates containing antibiotic. Mean bacterial counts (log(10) CFU/g) for treated vs. untreated rabbits were 6.26 and 8.13 (p < 0.0001), 6.00 and 8.38 (p < 0.001), and 7.25 and 8.79 (p 0.04) for PAO1, 11B and MutGR1, respectively, with an overall mortality rate of 0% vs. 8.9% (p < 0.01). MexXY-overexpressing bacteria were recovered from three (21%) treated rabbits. The C(max)/MIC ratio was the parameter that was best associated with tobramycin efficacy. The bacteria overexpressing MexXY, recovered from lung, occurred with a C(max)/MIC window of 19-26. It was concluded that the experimental PAP model highlights poor tobramycin bacteriological efficacy in vivo, contrasting with survival gain, and that the contribution of the MexXY system to this low level of tobramycin efficacy is modest. Finally, this model appears to be suitable for the investigation of new anti-pseudomonal therapeutic strategies.
Abstract: Low-level resistance to fluoroquinolones (in vitro susceptible but with topoisomerase mutation, parC) is currently rare among pneumococci in France. However, this resistance is more frequently observed in previously exposed patients and therapeutic failure has been reported. These issues were investigated by using a humanized model of experimental pneumonia induced by pneumococci exhibiting this low-level resistance profile. The results are as follows: 1) when the pneumonia is due to a wild type pneumococcus, humanized ciprofloxacin treatment is not effective because of resistant mutants with parC mutation; moreover, levoflaxin treatment is less bactericidal than gatiflo- or moxifloxacin (-4 vs -6 log CFU/g); 2) when an efflux strain is used, levo-treatment is not efficient but there are no mutants, a gatiflo-treatment is combined when mutants appear and moxiflo-treatment is effective; 3) when the pneumonia is induced with susceptible parC strains, treatment with either levo, or gati, or moxifloxacin is completely ineffective because resistant mutants appear (acquisition of another gyrA mutation). Measure of the mutation prevention concentration (MPC) allows anticipating these results since the mutation window can be determined. These results stress the necessity to identify patients with such pneumococcal strains in order to avoid therapeutic failure and the emergence of fluoroquinolone resistant mutants.
Abstract: Streptococcus pneumoniae is a leading cause of community-acquired pneumonia and is responsible for early-onset ventilator-associated pneumonia as well. In intensive care units, community-acquired pneumonia is still associated with a mortality rate of up to 30%, especially when mechanical ventilation is required. Our objective was to study to what extent MV could influence the efficacy of moxifloxacin in a rabbit model of pneumonia.
Abstract: For some pneumococci the fluoroquinolone MICs are low but the mutant prevention concentrations (MPCs) are high; this difference defines in vitro the mutant selection window (MSW). We investigated in vivo the bacterial reduction and the occurrence of resistant mutants with moxifloxacin (MFX; 400 mg once daily) or levofloxacin (LVX; 500 mg twice daily) in treatments similar to those in humans with experimental pneumonia due to pneumococci (expPP) exhibiting various MICs and MPCs. The MIC/MPC for MFX and LVX and genotypes were as follows: strain 16089, 0.125/0.125 and 0.5/0.5 (wild type); strain MS1A, 0.25/0.25 and 1/2 (efflux); strain MS2A, 0.25/4 and 1.75/28 (parC79); strain MR3B4, 0.25/4 and 2/32 (parC79); strain M16, 0.5/2 and 8/32 (parC83); strain Gyr-1207, 1.5/3 and 8/16 (gyrA); and strain MQ3A, 4/4 and 16/64 (parC and gyrA). Both drugs were efficient with wild type-expPP, but only MFX was efficient with efflux-expPP. No bacterial reduction was observed for parC-expPPs due to mutants observed in 18 to 100% of animals, depending on the strain and the drug tested. These mutants showed unbound area under the concentration-time curve and MICs of from 50 to 164 for MFX. The in vivo pharmacodynamic boundaries of the MSW were different for MFX and LVX. We conclude that, after LVX or MFX treatment, mutants occur in vivo if there is a preexisting parC mutation, since the drug concentrations fall below the MPCs of these strains. Since the MPC determination cannot be routinely determined, these phenotypes or genotypes should be detected by simple tests to guide the therapeutic options.
Abstract: To investigate the impact of low levels of fluoroquinolone resistance on the emergence of resistant mutants, we examined the mutant selection window (MSW) hypothesis in experimental pneumonia in rabbits infected with pneumococci with various susceptibility levels to fluoroquinolones and treated with gatifloxacin using a human-like regimen (equivalent to 400 mg once daily). The MSW corresponds to the range of concentrations between the minimal inhibitory concentration (MIC) and the mutant prevention concentration (MPC), which is the antibiotic concentration that prevents selection of resistant mutants.
Abstract: Ventilatory strategies combining low tidal volume (V(T)) with positive end-expiratory pressure (PEEP) are considered to be lung protective. The influence of the PEEP level was investigated on bacteriology and histology in a model of ventilator-associated pneumonia.
Abstract: We measured the effect of low-level fluoroquinolone resistance in Streptococcus pneumoniae on the development of high-level resistance within the context of the mutant selection window.
