[Effect of low doses of active chlorine on commensal populations of intestinal bacteria in rats by oral ingestion].

Chlorine-containing substances are widely used as disinfectants for treating equipment surfaces and technological aids for antimicrobial treatment of a number of foodstuff in the food industry. The toxic and bactericidal effects of the active (free) chlorine they contain are well understood for the concentrations used in practice, whereas little is known about the effect of its residual (subinhibitory) amounts on the organism and on the microbiota, including the ability to induce antimicrobial resistance. The aim of the study was to investigate the effect of different doses of active chlorine at oral administration on the commensal bacteria of intestinal microbiota, body weight gain and micromorphological features of the liver in rats. Material and methods. The study was carried out on male Wistar rats, with an initial body weight of 90-100 g, which for 4 weeks received doses of active chlorine together with drinking water ad libitum, with the given concentration: subinhibitory (10 mg/L), threshold (50 mg/L) and aggravated (100 mg/L). Chloramine was used as a chlorinecontaining agent stable in aqueous solution. Body weight gain was monitored daily. After decapitation, the caecum was taken for microbiota examination as well as the liver. The phenotypic antimicrobial resistance characteristics of Enterobacteriaceae and Enterococci were studied by the disk diffusion method. Additionally, a micromorphologic study of liver slices was performed. Results. Insignificant negative deviations in the body weight gain of rats in the experimental groups receiving subinhibitory doses of active chlorine, combined with a reduced level of Enterococci and Enterobacteriaceae representatives, were revealed. No significant effect of chlorine on the levels of resistant Escherichia coli populations was found, but a tendency to exhibit antimicrobial resistance of Enterococci isolated from rats receiving low doses of active chlorine (10 and 50 mg/l) was detected. No signs of toxic effect on the liver tissue most sensitive to chlorine were detected, but some accumulations of inflammatory cells in the liver slice were revealed. Conclusion. Low doses of chlorine-containing substances at their oral consumption are not indifferent for rats' organism, causing negative phenomena in intestinal bacteria and in liver tissues at the level of tendency. It is expedient to continue studies in this direction.