5 research outputs found
Микробиота и онкологические заболевания (обзор литературы)
Article presents current data on the contribution of the human microbiota to the development of oncological conditions, microbial impact on cell transformation, influence on chemotherapy outcome. Brief description of the methods used for studying microbiota in carcinogenesis as well as prospects of creating non-invasive diagnostic tools is given.Представлены современные данные о вкладе микробиоты человека в развитие неопластических заболеваний, механизмы клеточной трансформации и эффективность химиотерапии. Описаны методы изучения микробиоты при опухолевых заболеваниях, перспективы создания неинвазивных методов диагностики неоплазий
МАЛОИЗВЕСТНЫЕ БАКТЕРИИ, ВЫДЕЛЕННЫЕ ПРИ ЗАБОЛЕВАНИЯХ ЧЕЛОВЕКА
The paper is devoted to the study of little-known and previously unknown bacteria isolated from patients with various diseases. Here we present the data on 22 strains that are little-known or previously unknown as human pathogens and isolated from patients with various diseases. Most of the isolates were found to have multiple antibiotic resistances. Moreover, in many conditions potentially pathogenic spore-forming bacteria were identified. Spore formation provides bacteria for survival in the environment and promotes high resistance to antiseptics and disinfectants. Spore-forming bacteria are high survival and especially dangerous as potential hospital-acquired infections because of its antibiotic resistance but the activity of this antibiotic therapy doesn’t concern microbial spores.Работа посвящена изучению малоизвестных и ранее не известных бактерий, изолированных у больных с патологиями различной локализации. Выделенные и изученные 22 штамма малоизвестных бактерий или вообще не описаны ранее как возбудители заболеваний человека, или обнаружены при патологии другой локализации. Большинство полученных бактерий обладает множественной устойчивостью к различным антибиотикам. При разных заболеваниях в материале обнаружено много потенциально-патогенных спорообразующих бактерий. Спорообразование обеспечивает бактериям сохранение жизнеспособности в окружающей среде и повышенную устойчивость к антисептикам и дезинфектантам. Спорообразующие бактерии хорошо сохраняются и особенно опасны в качестве потенциальных возбудителей внутрибольничных инфекций, поскольку резистентны к антибиотикотерапии, активность которой не распространяется на микробные споры
Oral microflora in children with hematologic malignancies
The goal was a comprehensive study of oral microflora in healthy children and those with hematologic malignancies, based on the analysis of mixed microbial biofilms composition, isolation and identification of new previously unknown microorganisms. The material was obtained in children with hematological diseases in remission, 2–10 years aged, and for the control group from St. Petersburg schoolchildren and in kindergartens. We used microbiological, biochemical and molecular genetic methods, including electron microscopy, proteomic analysis, sequencing and complete genome annotation. Microorganisms of 23 genera isolated as pure cultures and identified by biochemical activity from mixed microbial biofilm derived from saliva of healthy and sick children. In microflora of children with hematologic malignancies a previously unknown type of streptococci with a large number of antibiotic resistance genes was revealed. Differences in oral microbiota composition of healthy children and children with hematological diseases in remission were revealed. The microbiota of children with hematologic malignancies contains more genes controlling antibiotic resistance. Also, it was observed previously unknown bacterium of the genus Streptococcus.</p
Oral microflora in children with hematologic malignancies
The goal was a comprehensive study of oral microflora in healthy children and those with hematologic malignancies, based on the analysis of mixed microbial biofilms composition, isolation and identification of new previously unknown microorganisms. The material was obtained in children with hematological diseases in remission, 2–10 years aged, and for the control group from St. Petersburg schoolchildren and in kindergartens. We used microbiological, biochemical and molecular genetic methods, including electron microscopy, proteomic analysis, sequencing and complete genome annotation. Microorganisms of 23 genera isolated as pure cultures and identified by biochemical activity from mixed microbial biofilm derived from saliva of healthy and sick children. In microflora of children with hematologic malignancies a previously unknown type of streptococci with a large number of antibiotic resistance genes was revealed. Differences in oral microbiota composition of healthy children and children with hematological diseases in remission were revealed. The microbiota of children with hematologic malignancies contains more genes controlling antibiotic resistance. Also, it was observed previously unknown bacterium of the genus Streptococcus
Treatment of chronic relapsing urinary tract infection with antibiotics selected by AtbFinder
We report the case of a 46-year-old patient who, after renal cancer surgery, developed a recurrent urinary tract infection that lasted for more than 2 years. Despite repeated antibiotic courses, including broad-spectrum drugs chosen using conventional antibiotic susceptibility testing, multiple reinfections followed. The patient was successfully treated once antibiotics were selected with AtbFinder. Unlike routine antimicrobial susceptibility methods, which select antibiotics effective only against a “lead bacterial pathogen,” AtbFinder identifies antibiotics that target the mixture of bacteria at the infection site. This case demonstrates the ability of AtbFinder to successfully select antibiotics for the treatment of relapsing urinary tract infections