Ciprofloxacin and Imipenem Resistance in Bathing Waters—Preliminary Studies of Great Rudnickie Lake

Natalia Jendrzejewska, Ewa Karwowska

The phenomenon of bacterial resistance to antibiotics, the emission and spread of these bacteria, and the genes that determine antibiotic resistance in the environment are now a major health security concern. This is especially important for anthropopressed surface waters used for recreational purposes. A particular threat is the occurrence of bacteria resistant to frequently applied pharmaceuticals, especially those used to treat persistent and complicated bacterial infections. Hence, a preliminary study of the occurrence of bacteria and genes determining resistance to selected antibiotics, ciprofloxacin and imipenem, was conducted in the bathing waters of the Great Rudnickie Lake. The research showed that the resistance to ciprofloxacin was exhibited by 28% of the total mesophilic bacteria present in water, while the resistance to imipenem was detected in 3.6% of them. It was found that 17–40% of ciprofloxacin-resistant isolates contained the fluoroquinolone-resistance gene qnrS, while the β-lactam-resistance gene blaTEM was found in all the imipenem-resistant strains. The increase in the number of bacteria resistant to the tested antibiotics in the waters of the river outflowing from the lake was observed compared to the inflowing waters, suggesting the potential of the water reservoir as a site for the spreading of drug resistance against tested antibiotics.

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