The role of aztreonam in rational antibacterial therapy of resistant nosocomial gram-negative infections. The new life for a well-known β-lactam

Abstract

Background. The situation regarding the prevalence of resistant pathogens, types of β-lactamase products, and, accordingly, the justification of rational approaches to antibacterial therapy in Ukraine remains insufficiently studied. Objective: based on the determination of the etiological structure of the causative agents of hospital infections in the Kharkiv region and the state of their resistance due to the production of β-lactamases, to propose rational approaches to antibacterial therapy and assess the feasibility of using aztreonam as a potentially effective mean of treating infections caused by resistant bacteria. Materials and methods. In 251 patients, samples of biomaterials were tested by the polymerase chain reaction for the presence of the following gram-negative pathogens: P.aeruginosa, Enterobacter, E.coli, K.pneumoniae, Proteus spp. and A.baumanii. A molecular genetic study was also conducted to identify certain types of β-lactamases. Results. In the structure of hospital pathogens, the absolute majority of gram-negative bacteria belong to the enterobacteria family. When determining the profile of β-lactamases, we found that in 59.38 % of cases, E.coli was able to produce metallo-β-lactamases, which makes the therapy with carbapenems or ceftazidime-avibactam impossible. An alternative in such cases is a combination of aztreonam and ceftazidime-avibactam. When the causative agent K.pneumoniae is detected, in some cases there may also be a need for combined therapy with the use of aztreonam. It was found that Enterobacter spp. in most cases is sensitive to carbapenems. A.baumanii is completely insensitive to carbapenems and requires alternative approaches to antibacterial therapy, including aztreonam, ceftazidime-avibactam, and polymyxins. P.aeruginosa was found only as part of polymicrobial associations, so it was impossible to analyze its β-lactamase production profile. Conclusions. The results of the conducted study demonstrate an extremely high detection of gram-negative antibiotic-resistant pathogens in patients of the intensive care units in the Kharkiv region. Microorganisms such as E.coli and A.baumanii have the most unfavorable profile of antibiotic resistance, which is due to the high frequency of production of serine carbapenemases and metallo-β-lactamases, whose presence makes the effective use of carbapenems impossible.