Staphylococcus sciuri is a principally animal-associated bacterial species, but its clinical relevance for humans is increasing. Our study aimed to provide the first insight into the prevalence of this bacterium in a hospital environment. A 3-month surveillance was conducted in a hospital located in Belgrade, Serbia, and 1,028 samples taken from hands of medical personnel, medical devices, and various hospital surfaces were screened for S. sciuri presence. In total, 108 isolates were obtained, which resulted in a relatively high rate of colonization (10.5%). These isolates, along with 7 S. sciuri strains previously isolated in the same hospital (n ؍ 115), were phenotypically and genotypically characterized. Antimicrobial susceptibility testing revealed that 73% of the strains were resistant to one or more antibiotics, with 4.3% strains displaying multiresistance. Examination of 16S-23S ribosomal DNA intergenic spacer length polymorphism identified the strains at the subspecies level, and 74 (64.3%) strains of S. sciuri subsp. sciuri, 37 (32.2%) strains of S. sciuri subsp. rodentium, and 4 (3.5%) strains of S. sciuri subsp. carnaticus were established. Pulsed-field gel electrophoresis (PFGE) analysis showed 21 distinct pulsotypes, including 17 main types and 4 subtypes. One dominant cluster with 62 strains was found, while 19 (90.5%) of the PFGE types and subtypes identified had 5 or fewer strains. The predominance of small PFGE clusters suggests that the ubiquitous presence of S. sciuri in the outside environment presents the continuous source for colonization of the hospital environment. The presence of one dominant PFGE cluster of strains indicates that some S. sciuri strains may be capable for adaptation to hospital environment conditions and continuous existence in this environment.Staphylococcus sciuri is a coagulase-negative, novobiocinresistant, oxidase-positive staphylococcal species. The organism is considered a principally animal bacterial species and is commonly present on skin and mucosal surfaces of a wide range of pets and farm and wild animals (11,15,16,27) and in food of animal origin (10, 23). It is also known to occur in environmental reservoirs, such as soil, sand, water, and marsh grass (15). S. sciuri may be found as a colonizing organism in humans, with low carrier rates in the nasopharynx, skin, and urogenital tract (8,30,31). The clinical relevance of S. sciuri in humans appears to be increasing, since the bacterium has been associated with various infections, such as endocarditis (12), peritonitis (35), septic shock (13), urinary tract infection (30), endophthalmitis (3), pelvic inflammatory disease (31), and, most frequently, wound infections (17,25,28).The capacity of this species to carry antimicrobial resistance determinants has been well documented (8,17,20,25,28). Furthermore, it was suggested that the mecA gene of methicillin-resistant strains of staphylococci originated from an evolutionary relative of the mecA homologue that has been identified in S. sciuri (7, 16).Isolation o...
