Background. The fight against the spread of infectious diseases creates the problem of resistance to pathogens and the most resistant of them – the propagators of nosocomial infections – are formed in hospitals because of a number of reasons. The solution of the problem lies in different areas, but the search of new effective means for the treatment of such diseases remains relevant right today. The shortest way to do this is to find the "pain points" of the pathogens themselves, i.e. the factors of their pathogenicity and resistance to which the action of novel antiseptics should be directed.
Objective. We aimed to analyse and evaluate the main factors of pathogenicity and resistance of pathogens of nosocomial infections to determine modern approaches to the development of novel antimicrobials.
Methods. Search and systematization of new scientific data and results concerning pathogenic factors of microbial pathogens that can be used as targets for the action of drugs.
Results. Over the last 10–20 years, due to the development of new research methods in biology, it has become possible to clarify the features and additional conditions for the detection of pathogenic factors of nosocomial infections. Additional mechanisms of manifestation of resistance, adhesiveness, invasiveness, transmission of signs, secretion of toxins by pathogens are shownthat determines the general increase of their resistance to the action of currently used means. The general idea of creating antiseptics that will not increase the resistance of pathogens can now be implemented by using substances with multidirectional or indirect mechanisms of action that minimally affect the metabolism of the cell and significantly reduce its resistance and pathogenicity.
Conclusions. Factors of pathogenicity of propagators of nosocomial infections and mechanisms of their implementation can be considered as the main targets for the action of novel antiseptics that will inhibit the spread of pathogens without increasing their resistance. The promising substances for such drugs, among other things, are bacteriophages and their modifications, enzybiotics, immunobiotics, autoinducer inhibitors, quorum sensing-system inhibitors, b-lactamase inhibitors and others. Some of these substances in combination with the new generation of antibiotics significantly enhance their effectiveness and together they are able to overcome the resistance of even multidrug-resistant pathogens.
This
study is a bioinformatics assay on the microbial genome of
Bacteroides thetaiotaomicron
. The study focuses on
the problem of quorum sensing as a result of adverse factors such
as chemotherapy and antibiotic therapy. In patients with severe intestinal
diseases, two strains of microorganisms were identified that were
distinguished as new. Strains were investigated by conducting genome
sequencing. The current concepts concerned with the quorum sensing
system regulation by stationary-phase sigma factor and their coregulation
of target genes in
B. thetaiotaomicron
were considered. The study suggested using bioinformatics data for
the diagnosis of gastrointestinal disorders. In the course of the
study, 402 genes having a greater than twofold change were identified
with the 95% confidence level. The shortest and longest coding genes
were predicted; the noncoding genes were detected. Biological pathways
(KEGG pathways) were classified into the following categories: cellular
processes, environmental information processing, genetic information
processing, human disease, metabolism, and organismic systems. Among
notable changes in the biofilm population observed in parallel to
the planktonic
B. thetaiotaomicron
was
the expression of genes in the polysaccharide utilization loci that
were involved in the synthesis of O-glycans.
Due to the huge impact of temperature on mechanical and tribological properties of polymer composites, polyimide composites reinforced with glass fiber and aramid fiber were fabricated. The composites were treated by the alternate temperature from-50 °C to 150 °C with 200 cycles. The comparation of the test results were analyzed and discussed before and after alternate temperature treatment.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.