The mechanisms of resistance to beta-lactam antibiotics in 325 isolates of Pseudomonas aeruginosa were examined. These isolates were selected because of their resistance to meropenem and imipenem (breakpoint, >4 mg/L), carbenicillin (>128 mg/L), ceftazidime (>8 mg/L), piperacillin and ticarcillin/clavulanate (>64 mg/L). The most frequent mechanism of resistance was beta-lactamase-independent, so called 'intrinsic resistance', which was found in 183 isolates and was probably due to impermeability and/or efflux mechanisms. beta-Lactamase-mediated resistance was demonstrated in 111 strains (11.1%). Derepression of Ambler Class C chromosomal beta-lactamase was detected in 64 isolates, most of which were resistant to ceftazidime and piperacillin but susceptible to meropenem, whereas secondary plasmid-encoded beta-lactamases were found in 34 isolates, all of them resistant to carboxypenicillins and ureidopenicillins and susceptible to carbapenems. Twelve strains showed more than one plasmid-encoded beta-lactamase plus derepression of chromosomal Class C enzyme. Resistance to carbapenems was independent of resistance to other beta-lactam antibiotics, indicating a different mechanism of resistance, probably due to the loss of the D2 porin. In total, 32 strains were resistant to carbapenems: 24 only to imipenem and eight to both imipenem and meropenem.
In this open, prospective, study were enrolled 204 hospitalized elderly patients with severe (88 males, 116 females, age range 70-94). Patients were randomized to receive one of the following antibiotic treatment regimens: meropenem 500 mg i.v. t.i.d. (52); imipenem/cilastatin 500 mg i.v. t.i.d. (51), clarithromycin 500 mg + ceftriaxone 1 g i.v. b.i.d. (52), clarithromycin 500 mg + amikacin 250 mg i.v. b.i.d. (49). In 99 cases causative germs were isolated (24 meropenem, 26 imipenem, 23 clarithromycin + ceftriaxone, 26 ceftriaxone + amikacin). A satisfactory clinical, bacteriological response was achieved respectively in 86.5% 77% in meropenem; 86.3% 71% in imipenem/cilastatin; 69% 61% in ceftriaxone + clarithromycin and in 85.7% 77% in clarithromycin + amikacin. The mean total cost for each patient was $1,560; $1,620; $1,760 and $1,792 in meropenem, imipenem/cilastatin, clarithromycin + ceftriaxone and clarithromycin + amikacin respectively. This study shows that treatment with either meropenem or imipenem is as efficacious as conventional therapy in the treatment of community acquired pneumonia (CAP), and that meropenem is the most cost-effective.
Aeromonas spp. are increasingly being recognized as human pathogens. The presence of metallo-β-lactamases in these organisms represents a potential problem in antimicrobial therapy. Mechanism-based inactivators of β-lactamases are used to overcome the resistance of clinical pathogens to β-lactam antibiotics, but no clinical useful inhibitors of the metallo-β-lactamases are presently known. Studying the interaction between cefotetan and Aeromonas spp. producing metallo-β-lactamase activity, we observed that cefotetan behaved as a transient inactivator for both the crude extracts of Aeromonas strains and the purified enzymes from Aeromonas hydrophila AE036 and Aeromonas schubertii MNSA20. The direct hydrolysis of cefotetan showed that it was a poor substrate for both purified enzymes. In view of the minimum inhibitory concentrations, cefotetan shows to be a useful antimicrobial agent against Aeromonas spp.
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