ABSTRACT
Introduction: Nosocomial infections have been acknowledged as a significant pathogen responsible for human illness due to the rise in the incidence of these infections that are mainly caused by resistant strains. As a result, it is important to prevent nosocomial infections. Therefore, in the epidemiology and pathogenesis of infection bacterial carriage appears to be of great importance and in healthy persons, three patterns of carriage are observed over time. The common ecological niches of microorganisms are the anterior nares and hands; hence, the present study aims to evaluate the surveillance of bacterial carriage from the hands and noses of healthcare workers that involve doctors, nurses, and housekeeping staffs and patients involving pregnant women or mothers. Materials and Methods: An observational prospective study was conducted for 1.5 years in which collection of swabs from both the hands and nose were taken and inoculated on mannitol salt agar, blood agar, and MacConkey agar and incubated at 37°C for 24 h following which biochemical reactions were performed from isolates and 160 nasal swabs and hand swabs were studied for bacterial growth. Results: The percentages of bacterial growth in the hands of mothers, doctors, housekeeping staff, and nurses were 17.5, 12.5, 52.5, and 25%, respectively, and in the nose were 7.5, 5, 32.5, and 12.5%, respectively. Total bacterial carriage in hand and nose swabs were 26.87 and 14.37%, respectively. Conclusion: Methicillin-resistant Staphylococcus aureus was the most common microorganism isolated and as a result to prevent its spread along with other nosocomial microorganisms, appropriate precautions should be taken as the spreading of these organisms can lead to drug resistance strains.
ABSTRACT
Drug resistance has now become a serious concern in the domain of microbial infection. Bacteria are becoming smarter by displaying a variety of mechanisms during drug resistance. It is not only helping bacteria to adapt nicely in adverse environment but it also makes a smart system for better availability of nutritional status for microorganisms. In this domain, pathogenic bacteria are extensively studied and their mechanism for drug resistance is well explored. The common modes in bacterial resistance include degradation of antibiotics by enzymes, antibiotic target modification or inactivation by enzymatic actions, complete replacement of antibiotic targets, quorum sensing (QS) mechanism, and efflux pump-based extrusion of antibiotics. In this review, various mechanisms of drug resistance in bacteria have been highlighted with giving the importance of efflux pumps. This can be explored as a knowledge source for the management of a variety of bacterial infections, related disease and vibrant clue for next-generation drug development.
