MIXING OF FODDER MASSES IN THE INTESTINES OF LABORATORY MICE AS INFLUENCED BY DRUGS MODULATING INTESTINAL MOTILITY

The aim of the work was to study processes of mixing food masses in the intestines as a factor in maintaining the homeostasis of the microbiota of the intestines. Laboratory mice were administered the two fluorescent labels to the gastrointestinal tract, then the process of mixing fluorescent dyes with the intestinal contents was analyzed. It has been found that the liquid component of the intestinal mass has much more intense movements including those in the oral direction of the intestinal tube. Theoretically, if there is a local inflammation, the accumulation of fluid may results in dissemination of the inflammation source throughout the gastrointestinal tract. The mixing processes and the rate of excretion of fluorescent labels in the lumen of the intestines (as a component of feces) and in the edge zone of the intestinal tube differ significantly, and the dyes remain in the mucosa of the small intestine after 4-5 hours after administration.

кишечник, моторика желудочно-кишечного тракта, кишечные инфекции, the intestines, motility of the gastrointestinal tract, intestinal infections

1. Афонюшкин В.Н., Шкиль Н.А., Коптев В.Ю., Нестерова И.С. Биохимический полиморфизм Е. coli серотипа 0157:Н7 // Вестн. РАСХН. - 2007. - № 4. - С. 75-77.

2. Walsh T.R., Toleman M.A., Poirel L., Nordmann P. Metallo-beta-lactamases: the quiet before the storm? // Clinical Microbiology Reviews. - 2005. - Vol. 18 (2) - P. 306-325.

3. Cloeckaert A., Baucheron S. Chaslus-Dancla E. Nonenzymatic chloramphenicol resistance mediated by IncC plasmid R55 is encoded by a floR gene variant // Antimicrobial Agents and Chemotherapy. - 2001. - Vol. 45. - P. 2381-2382.

4. Heisig P. High-level fluoroquinolone resistance in a Salmonella typhimurium isolate due to alterations in both gyrA and gyrB genes // J. Antimicrob. Chemother. - 1993. - N 32. - Р. 367-377.

5. Nishino K., Nikaido E., Yamaguchi A. Regulation and physiological function of multidrug efflux pumps in Escherichia coli and Salmonella // Biochim. Biophys. Acta. - 2009. - Vol. 1794. - P. 834-843.

6. Афонюшкин В.Н., Дударева Е.В., Малахеева Л.И., Филипенко М.Л. Антибиотикорезистентность сальмонелл в Сибири // Ветеринария. - 2008. - № 1. - С. 7-9.

7. Коптев В.Ю., Шкиль Н.А., Титова М.А. и др. Сорбционная активность маннанолигосахаридов в отношении микроорганизмов рода Salmonella в опытах in vitro и in vivo // Сиб. вестн. с.-х. науки. - 2014. - № 2. - С. 47-52.

8. Афонюшкин В.Н., Троменшлегер И.Н., Филипенко М.Л. и др. Подавление подвижности Salmonella enterica // Сиб. вестн. с.-х. науки. - 2012. - № 5. - С. 76-82.

9. Афонюшкин В.Н., Троменшлегер И.Н., Филипенко М.Л., Титова М.А. Изменение устойчивости Salmonella enterica и Pseudomonas aeruginosa к антибактериальной и иммобилизационной активности хлорамфеникола // Сиб. вестн. с.-х. науки. - 2013. - № 5. - С. 66-74.