Magdalena Chroma1, Milan Kolar. 1. Department of Microbiology, Faculty of Medicine and Dentistry, Palacky University Olomouc, Czech Republic. magdalena.chroma@centrum.cz
Abstract
BACKGROUND: In 1928, the first antibiotic, penicillin, was discovered. That was the beginning of a great era in the development and prescription of antibiotics. However, the introduction of these antimicrobial agents into clinical practice was accompanied by the problem of antibiotic resistance. Currently, bacterial resistance to antibiotics poses a major problem in both hospital and community settings throughout the world. METHODS AND RESULTS: This review provides examples of modern genetic methods and their practical application in the field of extended-spectrum β-lactamase detection. Since extended-spectrum β-lactamases are the main mechanism of Gram-negative bacterial resistance to oxyimino-cephalosporins, rapid and accurate detection is requested in common clinical practice. CONCLUSIONS: Currently, the detection of extended-spectrum β-lactamases is primarily based on the determination of bacterial phenotypes rather than genotypes. This is because therapeutic decisions are based on assessing the susceptibility rather than presence of resistance genes. One of the main disadvantages of genetic methods is high costs, including those of laboratory equipment. On the other hand, if these modern methods are introduced into diagnostics, they often help in rapid and accurate detection of certain microorganisms or their resistance and pathogenic determinants.
BACKGROUND: In 1928, the first antibiotic, penicillin, was discovered. That was the beginning of a great era in the development and prescription of antibiotics. However, the introduction of these antimicrobial agents into clinical practice was accompanied by the problem of antibiotic resistance. Currently, bacterial resistance to antibiotics poses a major problem in both hospital and community settings throughout the world. METHODS AND RESULTS: This review provides examples of modern genetic methods and their practical application in the field of extended-spectrum β-lactamase detection. Since extended-spectrum β-lactamases are the main mechanism of Gram-negative bacterial resistance to oxyimino-cephalosporins, rapid and accurate detection is requested in common clinical practice. CONCLUSIONS: Currently, the detection of extended-spectrum β-lactamases is primarily based on the determination of bacterial phenotypes rather than genotypes. This is because therapeutic decisions are based on assessing the susceptibility rather than presence of resistance genes. One of the main disadvantages of genetic methods is high costs, including those of laboratory equipment. On the other hand, if these modern methods are introduced into diagnostics, they often help in rapid and accurate detection of certain microorganisms or their resistance and pathogenic determinants.
Authors: Miroslava Htoutou Sedláková; Karel Urbánek; Vladimíra Vojtová; Hana Suchánková; Peter Imwensi; Milan Kolář Journal: BMC Res Notes Date: 2014-07-16
Authors: Héctor Sambrano; Julio César Castillo; Carlos W Ramos; Brenda de Mayorga; Olga Chen; Ovidio Durán; Carmelo Ciniglio; Criseida Aguilar; Osvaldo Cisterna; Magaly de Chial Journal: Braz J Infect Dis Date: 2020-12-04 Impact factor: 3.257