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Öğe Bacteria isolated from blood cultures and their antimicrobial susceptibility(AVES, 2011) Duman Y.; Kuzucu C.; Çu?lan S.S.Purpose: The aim of this study was to analyse the distrubution and antimicrobial susceptibility stream infections in 2009. Material and Methods: The samples were incubated in BACT / ALERT 3D automated systems for five days. Microorganisms were identified by using conventional methods. Antibiotic susceptibility was determined by Kirby-Bauer disk diffusion method according to the recommentations of Clinical Laboratory Standards Institute (CLSI) criteria. Results: The microorganisms isolated were 31.5% Gram-negative and 68.5% Gram-positive bacteria. The most frequently isolated bacteria were Escherichia coli and coagulase negative staphylococcus (CNS). All of the E.coli and Klebsiella were susceptible to imipenem, meropenem and amikacin. Imipenem was the most effective antibiotic against Pseudomonas aerugiosa, and tigecycline was the most effective antibiotic against Acinetobacter spp. In this study 30.8% of Staphylococcus aureus isolates were resistant to methicillin, no glycopeptide resistant Staphylococci was encountered. One enterecoccus strain was resistant to glycopeptides. Conclusion: Identification of microorganisms from blood cultures and its antibiotic susceptibility pattern will guide to clinician during the treatment.Öğe Efeitos antimicrobianos de cetamina em combinação com propofol: Um estudo in vitro(Elsevier Editora Ltda, 2013) Begec Z.; Yucel A.; Yakupogullari Y.; Erdogan M.A.; Duman Y.; Durmus M.; Ersoy M.O.[No abstract available]Öğe The effect of sodium dichloroisocyanurate dihydrate to prevent the environmental transmission of multidrug-resistant acinetobacter Baumanniiin hospital settings(Parlar Scientific Publications, 2020) Duman Y.; Kuzucu C.; Ersoy Y.; Otlu B.Nosocomial infections are a substantial concern as the major cause of morbidity and mortality of hospitalized patients' in the world. Disinfection of inanimate environment, equipment and hospital setting is important to prevent nosocomial infections. Sodium dichloroisocyanurate dihydrate (NaDCC) can be used for disinfection of environment and medical devices. The aims of this study were to determine the efficacy of NaDCC at various concentrations and times against multi-drug resistant Acinetobacter strains. In the first phase of the study, the bactericidal activity of NaDCC to A. baumannii was investigated by quantitative suspension test. In the second phase, the surface activity of NaDCC was tested by surface disinfection application test. In the third phase, before the cleaning of randomly selected patient's room A. baumannii contamination on the inanimate environment objects and equipment was investigated. After the cleaning of the room the effect of NaDCC was tested. As a result of the quantitative suspension test; NaDCC was inhibited the all A. baumannii and ATCC strains. In the surface disinfection application test, it was determined that at the concentration of 1000 ppm and 500 ppm, the activity of NaDCC; at 5th, 30th and 60th minutes was effective to microorganisms at 5 log level, respectively. But at 100 ppm concentration it was effective to at 5th minutes three, at 30th and 60th minutes seven A. baumannii strains at 5 log levels, while it was effective at log 1 level to other A. baumannii strains and S. aureus, E. coli and P. aeruginosa ATCC. As a result of investigation the A. baumannii contamination in patient's room; before the cleaning, we determined A. baumannii contamination on the inanimate objects of room (such as bed surface, bed edges, control device, nightstand, chair) and on equipment (such as stethoscope, steam appliance, blood pressure device, aspirator heads, ventilator surfaces). After the cleaning it was determined that at 1000 ppm concentration at 5th, 30th and 60thminutes NaDCC was effective to A. baumannii at 5 log levels. However, at 500 ppm concentration at 5th minute it was effective at log 5 level except control device. At 30th and 60th minutes of 500 ppm concentration of NaDCC was effective at log 5 level to A. baumannii. At 100 ppm concentration at 5th, 30th and 60th minutes it was effective to A. baumannii strains at log 1 level on inanimate objects and equipment. In low concentration, NaDCC efficacy was reduced against A. baumannii. The application concentration and time of the disinfectant to clean up the equipment and the environment is very important for preventing nosocomial infections and the spread of A. baumannii. Thus, it is necessary to check and follow up the staff and to create clean and disinfection training programs for educating staff. © by PSPÖğe Investigation of the presence of panton-valentine leukocidin,and clonal relationship of community- And hospital-acquired clinical isolates of staphylococcus aureus(2013) Duman Y.; Tekereko?lu M.S.; Otlu B.Staphylococcus aureus is one of the most important pathogens that cause community- and hospitalacquired infections by its toxins and enzymes. Panton-Valentine leukocidin (PVL), a cytotoxin which is especially produced by community-acquired S.aureus strains that cause soft tissue and skin infections and pneumonia. PVL leads to the destruction on polymorphonuclear cells by necrosis or induce apoptosis, so that it has great importance in the virulence of the organism. PVL can also exacerbate the clinical course of S.aureus infections and may lead to severe complications. Studies show that communityacquired PVL-positive S.aureus strains have become prevalent in hospital environments. In this study, we aimed to investigate the presence of PVL from hospital- and community-acquired S.aureus strains and to determine the clonal relationship between the PVL-positive strains. A total of 265 S.aureus strains isolated from different clinical samples (wound, blood, tracheal aspirate, urine, drainaige, catheter, parasynthesis fluid) of which 88 were community-acquired and 177 were hospital-acquired according to the CDC criteria were included in the study. Methicillin resistance of the strains were investigated by conventional methods, the presence of PVL and mecA gene regions by polymerase chain reaction, and clonal relationship among the PVL positive S.aureus strains by pulsed-field gel electrophoresis (PFCE). Community-acquired 12.5% (11 /88) and hospital-acquired 43% (76/177) of the strains were found resistant to methicillin. Community-acquired (CA) strains were most commonly isolated from wound samples (86%), while 34% of hospital-acquired (HA) strains were isolated from wound, and 33% were from blood samples. The rate of PVL positivity among CA- and HA-stralns were found as 15% and 3%, respectively. Hospital-acquired PVL-positive strains were isolated from the samples originating from pediatric (n= 1 ) and neurology inpatient clinics and intensive care unit (n= 3). Thirty nine percent of PVL-positive CAS.aureus strains were isolated from samples originated from internal medicine, 23% from general surgery, 15% from dermatology, 15% from orthopedic surgery and 8% from pediatrics outpatient clinics. Ninety two percent of PVL-positive CA-S.aureus strains have been isolated from wound samples, while 67% of HA-S.aureus strains from wound and 33% from blood samples. Five PVL-positive HA- methicillin-sensitive S.aureus strains were found clonally-related with each other by PFGE. When the macrorestriction patterns were evaluated according to Tenover criteria; three of those isolates were indistinguishable, and two were clonally unrelated. There was no clonal relationship between community-acquired strains. In conclusion we observed that PVL could be detected not only in community-acquired strains but also in hospital-acquired strains. The spread of PVL-positive strains in the hospital environment and even create epidemics, increases the risk of mortality and morbidity. Epidemiological studies will help us to understand the clonal spread of CA and HA-S.ooreus strains.
