The emergence of antimicrobial resistance of microorganisms to antibiotics, Also, an increase in nosocomial infections, particularly by Methicillin Resistant Staphylococcus aureus (MRSA), Pseudomonas aeruginosa, the need to discover new antibacterial agents with a mechanism of action different from killing bacteria were more than ever before. The Ag nanoparticles (NPs), ZnO (NPs) and Ag/ZnO (NPs) were synthesized through the thermal decomposition of the precursor of oxalate. Gram-negative antibiotic resistant bacteria and Gram-positive antibiotic resistant bacteria were prepared from the Central laboratory of Rasoul-e-Akram hospital. All of isolates were confirmed by biochemical tests. For determine of antibiotic resistance patterns of isolated, disk diffusion method in accordance with the standard CLSI were used, again. Antibacterial effects of (NPs) against antibiotic resistance bacteria were conducted by MIC and MBC tests. The particles size was less of 50 nm, approximately. Curiously, the silver (NPs) was not exposed the antibacterial properties against all of isolated bacteria. Also, klebsiella pneumonia and MRSA had greatest sensitivity to the ZnO (NPs). Also, Gram-positive antibiotic resistant bacteria showed high sensitivity to Ag/ZnO (NPs), compared to other bacteria. Interestingly, The MBC for ZnO (NPs) against Pseudomonas aeruginosa ≥8192 was observed. The Ag (NPs) had not the ability to inhibit the nosocomial infection. Klebsiella pneumonia and MRSA had greatest sensitivity to the ZnO (NPs). The Ag/ZnO (NPs) was ability to kill antibiotics resistant bacteria. The antibacterial agents can open a new leaf in our life in the treatment of nosocomial infections.Keywords: Nano-metallic particles, Antibiotic Resistant Bacteria, Rasoul-e-Akram Hospital
IntroductionAntibiotic resistance is a worldwide problem (Roberts et al., 2009). Majority shape of resistance spread with remarkable speed. World health guidance have described antibiotic-resistant microorganisms as "nightmare bacteria" that "pose a catastrophic threat" to people in every country in the world (Roberts et al., 2009). Each year in the United States, at least 2 million people acquire serious infections with bacteria that are resistant to more of the antibiotics designed to treat those infections. Approximately, 23000 people die each year of these antibioticresistant infections. Many more die from other conditions that were intricate by an antibiotic-resistant infection. Antibiotic-resistant infections add avoidable costs to the already overburdened U.S. health care system. In another cases, antibiotic-resistant infections require prolonged treatments, extend hospital stays, necessitate additional doctor visits and result in greater disability and death compared with infections that are easily treatable with antibiotics (Roberts et al., 2009).Nowadays, researchers have suggested the use of nano-metal oxides, specially Silver and Zinc oxide (NPs) as superior disinfectants and antimicrobial agent for nosocomial Infections microorganisms (Bla...
