Abstract

Coagulase-negative staphylococci (CNS) were the first organisms in which acquired glycopeptide resistance was recognized. Ever since the early reports, it has been apparent that resistance to teicoplanin is more common than that to vancomycin and that resistance occurs mostly in species such as Staphylococcus haemolyticus and Staphylococcus epidermidis. The minimum inhibitory concentrations (MICs) of teicoplanin for CNS usually fall over a wide range, and, especially in some methicillin-resistant isolates of the two above-mentioned species, they can reach and even exceed the resistance breakpoint, whereas vancomycin MICs tend to remain more stable over a narrower range within the limits of susceptibility. CNS strains intermediately susceptible and even resistant not only to teicoplanin but also to vancomycin have, however, been isolated, most frequently from patients subjected to prolonged glycopeptide treatment. Laboratory detection of glycopeptide-resistant CNS may be problematic, mainly because susceptibility tests, particularly those for teicoplanin, are influenced by various technical factors, and agar diffusion tests may yield false susceptibility data. In studies with experimental glycopeptides, some molecules have exhibited improved in vitro activity compared with teicoplanin and vancomycin, but these encouraging microbiological findings have not usually been followed by in vivo trials. Stepwise and single-step exposure to teicoplanin and vancomycin has allowed stable clones for which glycopeptide MICs are increased to be obtained from susceptible CNS strains, particularly strains of Staphylococcus haemolyticus and Staphylococcus epidermidis. In these studies, resistance to teicoplanin was generally easier to obtain than resistance to vancomycin, and the levels of teicoplanin resistance were higher. Population studies have demonstrated the usually heterogeneous nature of glycopeptide resistance in CNS. Although glycopeptide-resistant CNS have been shown to differ in several features from their glycopeptide-susceptible counterparts, the exact mechanism of staphylococcal glycopeptide resistance remains unknown.

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