Staphylococcus epidermidis as a cause of bacteremia

Staphylococcus epidermidis is a biofilm-producing commensal organism found ubiquitously on human skin and mucous membranes, as well as on animals and in the environment. Biofilm formation enables this organism to evade the host immune system. Colonization of percutaneous devices or implanted medical devices allows bacteria access to the bloodstream. Isolation of this organism from blood cultures may represent either contamination during the blood collection procedure or true bacteremia. S. epidermidis bloodstream infections may be indolent compared with other bacteria. Isolation of S. epidermidis from a blood culture may present a management quandary for clinicians. Over-treatment may lead to patient harm and increases in healthcare costs. There are numerous reports indicating the difficulty of predicting clinical infection in patients with positive blood cultures with this organism. No reliable phenotypic or genotypic algorithms currently exist to predict the pathogenicity of a S. epidermidis bloodstream infection. This review will discuss the latest advances in identification methods, global population structure, pathogenicity, biofilm formation, antimicrobial resistance and clinical significance of the detection of S. epidermidis in blood cultures. Previous studies that have attempted to discriminate between invasive and contaminating strains of S. epidermidis in blood cultures will be analyzed.

Moderate intensity static magnetic field has bactericidal effect on E. coli and S. epidermidis on sintered hydroxyapatite

The application of electromagnetic field in the context of bacteria associated infections on biomaterial surfaces has not been extensively explored. In this work, we applied a moderate intensity static magnetic field (100 mT) to understand the adhesion and growth behavior of both gram positive (S. epidermidis) and gram negative bacteria (E. coli) and also to investigate bactericidal/bacteriostatic property of the applied electromagnetic field. An in-house built magnetometer was used to apply static homogeneous magnetic field during a planned set of in vitro experiments. Both the sintered hydroxyapatite (HA) and the control samples seeded with bacteria were exposed to the magnetic field (100 mT) for different timescale during their log phase growth. Quantitative analysis of the SEM images confirms the effect of electromagnetic field on suppressing bacterial growth. Furthermore, cell integrity and inner membrane permeabilization assays were performed to understand the origin of such effect. The results of these assays were statistically analyzed to reveal the bactericidal effect of magnetic field, indicating cell membrane damage. Under the investigated culture conditions, the bactericidal effect was found to be less effective for S. Epidermidis than E. coli. (c) 2012 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater 2012:100B:12061217, 2012.

Staphylococcus haemolyticus e Staphylococcus epidermidis isolados de fômites de origem hospitalar: perfis de resistência aos agentes antimicrobianos e produção de biofilme

Os Staphylococcus coagulase-negativos (SCN) s��o encontrados na pele e mucosas de seres humanos e outros animais, já que algumas espécies s��o parte constituinte da microbiota normal destes mesmos s��tios, e podem constituir um reservatório para SCN. A espécie Staphylococcus epidermidis, é reconhecida como grande oportunista e agente de graves infecções nosocomiais e comunitárias, além de associado com infecções em pacientes submetidos a implantes com dispositivos médicos, e a espécie Staphyloccus haemolyticus é a segunda espécie mais isolada de hemoculturas humanas, sendo uma das espécies que apresenta elevada resistência aos antimicrobianos. O presente estudo teve como objetivo principal investigar a presença de SCN em fômites (estetoscópios, termômetros e esfigmomanômetros) no ambiente hospitalar, identificar as espécies S. haemolyticus e S. epidermidis e correlacionar seus perfis de resistência aos antimicrobianos com a capacidade de produção de biofilme. A técnica de multiplex-mPCR foi empregada na determinação das espécies e a fenotipagem foi realizada pelos testes fenotípicos convencionais. Os perfis de resistência aos antimicrobianos foram verificados através do teste de disco-difus��o, determinação da CIM (oxacilina e vancomicina), determinação da CBM e presença do gene mecA. A capacidade de produção de biofilme foi investigada pelos testes do Ágar Vermelho do Congo e ensaios de aderência em superfícies abióticas (poliestireno e vidro) na presença e aus��ncia de oxacilina e vancomicina, além da PCR para o gene icaAD. Os resultados demonstraram que pelos testes bioquímicos convencionais, a espécie mais encontrada foi S. epidermidis (43,5%). Após a confirmação pela técnica de PCR, 29 amostras (82%) foram identificadas como S. epidermidis, e 6 amostras (18%) foram identificadas como S. haemolyticus. Todas as amostras foram multirresistentes, oxacilina resistentes e vancomicina sens��veis, sendo que apenas 5 amostras S. epidermidis (17,2%) foram tolerantes a oxacilina. A presença do gene mecA foi detectada em 71,4% das amostras. Apesar da maioria das amostras ter apresentado capacidade de produzir slime e/ou biofilme não foi observada total correlação com a presença do gene icaAD enfatizando a natureza multifatorial da produção de biofilme. As amostras aderiram melhor ao esfigmomanômetro, e também, neste fômites, foi encontrado a maior porcentagem de amostras positivas para a produção de slime. Para aderência ao vidro e aderência ao poliestireno não foi encontrada correlação com os fômites. Foram isoladas amostras S. epidermidis de todos os s��tios hospitalares estudados e S. haemolyticus s�� não foi encontrado em Enfermaria de Clínica Médica. Em relação aos fômites, S. epidermidis foi encontrado em todos os fômites estudados, e S. haemolyticus, apenas foi encontrado em esfigmomanômetro e em outros fômites. Os fômites estão servindo como fontes de transmissão e disseminação de micro-organismos, sendo necessário maiores estudos a respeito.

Detection of the icaADBC gene cluster and biofilm formation in Staphylococcus epidermidis isolates from catheter-related urinary tract infections.

Cho SH, Naber K, Hacker J, Ziebuhr W. Institut für Molekulare Infektionsbiologie, Röntgenring 11, D-97070 Würzburg, Germany. Biofilm production in Staphylococcus epidermidis is an important virulence factor that is mediated by the expression of the icaADBC operon. In this study 41 S. epidermidis isolates obtained from catheter-related urinary tract infections were analyzed for the presence of the icaADBC operon and biofilm formation. Eighteen of 41 isolates (44%) were shown to carry ica-specific DNA, but only 11 isolates (27%) produced biofilms spontaneously under normal growth conditions. Upon induction by external stress or antibiotics, biofilm formation could be stimulated in five of seven ica-positive, biofilm-negative isolates, indicating that the icaADBC expression was down-regulated in these strains. Genetic analyses of the ica gene clusters of the remaining two ica-positive, biofilm-negative strains revealed a spontaneous ICAC::IS256 insertion in one strain. Insertion of the element caused a target site duplication of seven base pairs and a biofilm-negative phenotype. After repeated passages the insertion mutant was able to revert to a biofilm-forming phenotype which was due to the precise excision of IS256 from the icaC gene. The data show that icaC::IS256 integrations occur during S. epidermidis polymer-related infections and the results highlight the biological relevance of the IS256-mediated phase variation of biofilm production in S. epidermidis during an infection.

Effect of subinhibitory antibiotic concentrations on polysaccharide intercellular adhesin expression in biofilm-forming Staphylococcus epidermidis.

Rachid S, Ohlsen K, Witte W, Hacker J, Ziebuhr W. Institut für Molekulare Infektionsbiologie, Röntgenring 11, D-97070 Würzburg, Germany. Biofilm production is an important step in the pathogenesis of Staphylococcus epidermidis polymer-associated infections and depends on the expression of the icaADBC operon leading to the synthesis of a polysaccharide intercellular adhesin. A chromosomally encoded reporter gene fusion between the ica promoter and the beta-galactosidase gene lacZ from Escherichia coli was constructed and used to investigate the influence of both environmental factors and subinhibitory concentrations of different antibiotics on ica expression in S. epidermidis. It was shown that S. epidermidis biofilm formation is induced by external stress (i.e., high temperature and osmolarity). Subinhibitory concentrations of tetracycline and the semisynthetic streptogramin antibiotic quinupristin-dalfopristin were found to enhance ica expression 9- to 11-fold, whereas penicillin, oxacillin, chloramphenicol, clindamycin, gentamicin, ofloxacin, vancomycin, and teicoplanin had no effect on ica expression. A weak (i.e., 2.5-fold) induction of ica expression was observed for subinhibitory concentrations of erythromycin. The results were confirmed by Northern blot analyses of ica transcription and quantitative analyses of biofilm formation in a colorimetric assay.

Chromosomal rearrangements affecting biofilm production and antibiotic resistance in a Staphylococcus epidermidis strain causing shunt-associated ventriculitis.

Ziebuhr W, Dietrich K, Trautmann M, Wilhelm M. Institut für Molekulare Infektionsbiologie, Würzburg, Germany. w.ziebuhr@mail.uni-wuerzburg.de During two clinical courses of shunt-associated meningitis in a 3-month-old child, five multiresistant S. epidermidis isolates were obtained and analyzed with regard to biofilm production and antibiotic susceptibility. Three S. epidermidis strains, which were initially isolated from the cerebrospinal fluid, produced biofilms on polystyrene tissue culture plates. Following antibiotic treatment and subsequent exchange of the shunt system, sterilization of the CSF was achieved. However, after three weeks a relapse of the infection occurred. The two S. epidermidis isolates obtained now were biofilm negative, but showed an identical resistance pattern as those from the previous infection, except that resistance to rifampicin and increased mininal inhibitory concentrations of aminoglycoside antibiotics had emerged. DNA fingerprinting by PFGE indicated the clonal origin of all isolates. However, some DNA rearrangements and differences in the IS256-specific hybridization patterns could be identified in the isolates from the second infection period that led to altered biofilm formation and increased expression of aminoglycoside resistance traits. The data evidence that variation of biofilm expression occurs in vivo during an infection and highlight the extraordinary genome flexibility of pathogenic S. epidermidis.