Phenotypic selection of small-colony variant forms of Staphylococcus epidermidis in the rat model of endocarditis.

Four pathogenic strains of Staphylococcus epidermidis (sensu strictu)-EC, RP62A, LW, and HBSN--exhibited a mixed population of colony phenotypes when plated onto a high-salt, low-glucose agar ("Memphis agar"). When compared with challenge inocula, significant shifts in colony populations to the small-colony variant forms occurred for all four strains for isolates recovered from infected vegetations of rats with catheter-induced endocarditis. Various colony phenotypes of the HBSN strain were compared in virulence studies by using the rat model of endocarditis. The infectivity rate of the small-colony variant forms was significantly less than that of either the normal parent form (P less than .05) or the mixed phenotypic inoculum (P less than .05). These data indicate that the small-colony variant forms may be selected for, once endocardial infections are established, and that the small-colony variant forms alone are much less able to initiate and/or sustain intracardiac infections in experimental endocarditis.