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Showing 2 results for Silver Nanoparticle
F Azadi , A Jamali , B Baei , M Bazouri , F Shakeri , E Ghaemi ,
Volume 18, Issue 3 (10-2016)
Abstract
Background and Objective: The rise of antibiotic resistance particulary Methicillin resistance in pathogenic bacteria such as Staphylococcus aureus is found to be an emerging threat to human health especially in hospitals. Heavy metal nanoparticles such as Ag used for inhibition of this bacterium. This study was done to determine of minimum inhibitory concentration (MIC) Ag nanoparticle against Staphylococcus aureus which isolated in Gorgan, north of Iran and its relation with Methicillin resistance and source of bacteria.
Methods: In this descriptive – analytical study, the MIC Ag nanoparticle in 183 isolates of Staphylococcus aureus by microdilution method was determined. 30 isolates, based on mecA gene was considered as MRSA. Samples were collected from patients, nose of healthy carriers and foods. Compare the MIC of isolates based on Methicillin resistance, source of the bacteria and resistance to other antibiotics were assessed.
Results: Out of 183 samples MIC was varied from 1 to 16 µg/ml, and mean±std was 2.9±1.89 µg/ml. MIC mean of silver nanoparticles in isolated from foods were 2±0.7, isolared from healthy carriers were 4.1±2.4 and from patients were 3.4±2.1 µg/ml and were statically significant (P<0.05). MIC mean of silver nanoparticles in MSSA isolates are 3.9±2.3 and in MRSA isolates are 2.4±1.4 µg/ml that were statically significant (P<0.05). MIC mean of gentamycin resistant isolate were lower than sensitive one. But between MIC of silver nanoparticles and other antibiotics resistance was not significant statistically.
Conclusion: There is a relation between silver nanoparticle MIC, source of sample isolation, Methicillin and gentamycin resistance. Since MIC of silver nanoparticles on isolates of Methicillin resistant is low, the possibility of its use in the control of MRSA in hospital infections can be considered as a prime attention the Gentamycine.
Masoumeh Molabagheri , Amin Moazami ,
Volume 21, Issue 3 (10-2019)
Abstract
Background and Objective: Nosocomial infection is a major challenge in health care system. In fact, it is regarded as one of the risk factors in hospitalized patients. The aim of this study was to determine the antibacterial effect of silver nanoparticles (AgNPs) nursing gowns on geram – positive bacterial.
Methods: This descriptive and analytical study was done on 200 nurses gowns were surveyed in two hospitals of Sirjan city in Kerman Province cenral area of Iran. At first, the antimicrobial activity of silver nano fabrics on Staphylococcus aureus bacteria was confirmed by examining the optical density OD (0.325) medium. Sampling was gathered into the two modes, before using nano gowns and after using nano gowns by using wet sterile swabs. The samples collected were cultured and the formations of colonies were examined and biochemical tests were used to identify isolated bacterial.
Results: The most commonly isolated gram- positive bacterial from normal gowns were Staphylococcus epidermidis (43%) and the lowest pathogen was Streptococcus (1%). In these hospitals, after using nano silver gowns, the amount of microbial load on the clothes were determind zero.
Conclusion: This study showed that gram- positive bacterials of nursing gowns after contact with silver nanoparticles were eliminated.
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