AI Article Synopsis
- Quinolones are crucial antibacterials for treating infections, but rising bacterial resistance, especially in environments affected by hospital waste, is a major health concern.
- The study focused on the prevalence of quinolone-resistant Escherichia coli in water bodies near hospitals in Kerala, India, using antibiotic testing methods and checking for resistance genes.
- The findings revealed 209 multidrug-resistant strains of E. coli, with several resistance genes identified, suggesting that hospital effluents may promote antibiotic resistance in aquatic microorganisms, which poses significant risks to public health.
Article Abstract
Quinolones are one of the most important classes of antibacterials available for the treatment of infectious diseases in humans. However, there is a growing concern about bacterial resistance to antimicrobials including quinolones. The spread of antibiotic-resistant bacteria in the aquatic environment has been recognized as a growing threat to public health and hospitals appear to be a major contributor to this. The objective of this study was to investigate the prevalence of quinolone resistance in Escherichia coli from selected water bodies receiving direct hospital effluents in Kerala, India. Standard disc diffusion and E-test were used for antibiotic susceptibility testing. As antibiotic resistance can develop in bacterial isolates by different means, EtBr Agar Cartwheel method was used to detect the efflux pump activity and presence of resistant genes was detected by PCR. The mechanism of transfer of plasmid mediated resistance was confirmed by conjugation experiments. A total of 209 multidrug-resistant Escherichia coli were isolated from different hospital effluent discharge sites and aquaculture farms located in their vicinity. Among them, qnrB was found to be most prevalent followed by qnrS, OqxAB, qnrA and aac (6')-Ib-cr. The results suggested that the antibiotics present at sub-inhibitory concentrations in direct hospital effluents increases the selection pressure impacting the cell function of even normal microorganisms in the aquatic environment to change the genetic expression of virulence factors or acquire resistance genes by different transfer mechanisms, posing a serious threat to public health.
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| http://dx.doi.org/10.1016/j.scitotenv.2020.141538 | DOI Listing |
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