, 2007) Such strains may possibly be able to form a biofilm in v

, 2007). Such strains may possibly be able to form a biofilm in vivo without PNAG. Testing of other S. epidermidis

from the same collection (Table 1) indicates the presence of two B+, I+, P+ strains that are completely unable to develop an infection in spite of possessing the ica locus and forming a biofilm in vitro. This result indicates that in the TC-GP model, not all the clinical strains are able to develop and maintain an infection. Three negative B−, I−, P− clinical and commensal strains showed, to some extent, a capacity to develop and maintain an infection. Such strains may form a biofilm in vivo without PIA. The presence of a significant amount of bacteria after sonication JAK inhibitor in the implants infected by these strains could indicate their presence in a biofilm form. It is also conceivable that these negative strains may develop and maintain an infection without a biofilm. Further experiments are needed to evaluate the capacity of the different strains to form a biofilm in vivo. However, the fact that the strains belonging to the ‘B+, I+, P+’ type showed a high capacity to cause persistent infections, compared with the opposite ‘B−, I−, P−’ type, emphasized the potential role of PNAG and the ica locus in the pathophysiology of strains. Whatever the strains, the exact mechanism responsible

Inhibitor Library purchase for virulence remains to be determined, and it can be assumed that subspecies-specific differences exist in the abilities of S. epidermidis isolates to form a biofilm

and to cause infection in vivo. The early detection of the medical device-related staphylococcal infections is difficult using the classical tools of microbiological analyses. During an implant-related biofilm infection, the quantity of bacteria in the bloodstream is very low, and their direct detection is nearly impossible. The diagnosis is often made only at advanced stages of infection, when severe complications occur: formation of abscesses, pain, and unsealing of the prosthetic devices. Specific and noninvasive laboratory tests to diagnose these infections are not yet available. Because the pathogenicity of S. epidermidis is mostly due to its ability to colonize Alanine-glyoxylate transaminase indwelling polymeric devices and form a biofilm, a diagnostic test could be based on the detection of antibodies specific for biofilm components of CoNS, particularly S. epidermidis. A detection of specific ‘antibiofilm’ antibodies in the blood serum of patients could serve as a convenient noninvasive and inexpensive diagnostic tool for the detection of foreign body-associated infections. However, no antigens specific for staphylococcal infection have been identified. Different extracellular antigenic preparations have been proposed by different authors as candidates for immunological tests: an extracellular extract of a clinical S. epidermidis strain (staphylococcal slime polysaccharide antigen, Selan et al., 2002), a ‘20-kDa sulphated polysaccharide’, an ‘80-kDa peptidoclycan’ (Karamanos et al.

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