Biofilm forming capacity and antibiotic susceptibility of
| Autor: | Sertaç Argun, Kıvanç, Gizem, Arık, Berna, Akova-Budak, Merih, Kıvanç |
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| Rok vydání: | 2019 |
| Předmět: |
antibiotic resistance
ocular surface Genotype Staphylococcus Diabetes Microbial Sensitivity Tests Staphylococcus spp biochemical phenomena metabolism and nutrition Staphylococcal Infections Polymerase Chain Reaction Eye Infections Bacterial biofilm Anti-Bacterial Agents Diabetes Complications Phenotype Bacterial Proteins Genes Bacterial Biofilms Drug Resistance Bacterial Diabetes Mellitus Microscopy Electron Scanning Humans Retrospective Studies Original Research |
| Zdroj: | Malawi Medical Journal |
| ISSN: | 1995-7270 |
| Popis: | Introduction Bacterial biofilm is an exopolysaccharide matrix that is produced by bacteria while they adhere on abiotic or biotic surfaces. The bacteria living in this matrix are more resistant to antibiotics than planctonic bacteria. The biofilm formation property of the bacteria is determined by genes; and this is related to virulence of the microorganism. In ophthalmology, biofilms form especially on abiotic surfaces such as silicon tubes, contact lenses, intraocular lenses etc. Aim Our aim was to investigate genotypic and phenotypic structures of biofilms that are produced by Staphylococcus spp., which was obtained from the eyes of diabetic patients and determine the effect on antibiotic susceptibility. Methods The study group was comprised with 83 isolates from diabetic patients and 21 isolates from non-diabetic patients. Presumptive isolates were detected and confirmed by a microbial identification system VITEK II. Automated EcoRI Ribotyping was performed. Biofilm production was detected by Congo Red Agar Plate and Microtiter Plate Assay. Disc diffusion method was used for determination of antibiotic susceptibility of isolates. Results Out of the 83 isolates from diabetic patients, 25 were weakly (30%), 20 were moderately (24%), and 25 were strongly (30%) biofilm positive. Seven isolates of S. aureus, 11 isolates of S.epidermidis, 2 isolates of S. warneri, 3 isolates of S.hominis, and 2 isolates of S.lugdunensis were identified as strong biofilm producers. Out of the 83 Staphylococcus isolates, 37 were cefuroxime, 18 ciprofloxacin, 11 vancomycin, 12 gatifloxacin, and 18 moxifloxacin resistant. In total, 37 strains were resistant to three or more antibiotics. There was a statistically significant relation between biofilm formation and multidrug resistance (against three or more antibiotics, p |
| Databáze: | OpenAIRE |
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