出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2016/04/25 19:06:58」(JST)
Staphylococcus epidermidis | |
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Scanning electron image of S. epidermidis. | |
Scientific classification | |
Kingdom: | Bacteria |
Phylum: | Firmicutes |
Class: | Bacilli |
Order: | Bacillales |
Family: | Staphylococcaceae |
Genus: | Staphylococcus |
Species: | S. epidermidis |
Binomial name | |
Staphylococcus epidermidis (Winslow & Winslow 1908) |
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Synonyms | |
Staphylococcus albus Rosenbach 1884 |
Staphylococcus epidermidis is a Gram-positive bacterium, and one of over 40 species belonging to the genus Staphylococcus.[1] It is part of the normal human flora, typically the skin flora, and less commonly the mucosal flora.[2] Although S. epidermidis is not usually pathogenic, patients with compromised immune systems are at risk of developing infection. These infections are generally hospital-acquired.[3] S. epidermidis is a particular concern for people with catheters or other surgical implants because it is known to form biofilms that grow on these devices.[4] Being part of the normal skin flora, S. epidermidis is a frequent contaminant of specimens sent to the diagnostic laboratory.[5]
Friedrich Julius Rosenbach distinguished S. epidermidis from S. aureus in 1884, initially naming S. epidermidis as S. albus.[6] He chose aureus and albus since the bacteria formed yellow and white colonies, respectively.
S. epidermidis is a very hardy microorganism, consisting of nonmotile, Gram-positive cocci, arranged in grape-like clusters. It forms white, raised, cohesive colonies about 1–2 mm in diameter after overnight incubation, and is not hemolytic on blood agar.[4] It is a catalase-positive,[7] coagulase-negative, facultative anaerobe that can grow by aerobic respiration or by fermentation. Some strains may not ferment.[8]
Biochemical tests indicate this microorganism also carries out a weakly positive reaction to the nitrate reductase test. It is positive for urease production, is oxidase negative, and can use glucose, sucrose, and lactose to form acid products. In the presence of lactose, it will also produce gas. S. epidermidis does not possess the gelatinase enzyme, so it cannot hydrolyze gelatin.[citation needed] It is sensitive to novobiocin, providing an important test to distinguish it from Staphylococcus saprophyticus, which is coagulase-negative, as well, but novobiocin-resistant.[3]
Similar to those of S. aureus, the cell walls of S. epidermidis have a transferrin-binding protein that helps the organism obtain iron from transferrin. The tetramers of a surface exposed protein, glyceraldehyde-3-phosphate dehydrogenase, are believed to bind to transferrin and remove its iron. Subsequent steps include iron being transferred to surface lipoproteins, then to transport proteins which carry the iron into the cell.[4]
The ability to form biofilms on plastic devices is a major virulence factor for S. epidermidis. One probable cause is surface proteins that bind blood and extracellular matrix proteins. It produces an extracellular material known as polysaccharide intercellular adhesin (PIA), which is made up of sulfated polysaccharides. It allows other bacteria to bind to the already existing biofilm, creating a multilayer biofilm. Such biofilms decrease the metabolic activity of bacteria within them. This decreased metabolism, in combination with impaired diffusion of antibiotics, makes it difficult for antibiotics to effectively clear this type of infection.[4] S. epidermidis strains are often resistant to antibiotics, including penicillin, amoxicillin, and methicillin. Resistant organisms are most commonly found in the intestine, but organisms living freely on the skin can also become resistant due to routine exposure to antibiotics secreted in sweat.
As mentioned above, S. epidermidis causes biofilms to grow on plastic devices placed within the body.[9] This occurs most commonly on intravenous catheters and on medical prostheses.[10] Infection can also occur in dialysis patients or anyone with an implanted plastic device that may have been contaminated. It also causes endocarditis, most often in patients with defective heart valves. In some other cases, sepsis can occur in hospital patients.[citation needed]
Antibiotics are largely ineffective in clearing biofilms. The most common treatment for these infections is to remove or replace the infected implant, though in all cases, prevention is ideal. The drug of choice is often vancomycin, to which rifampin or aminoglycoside can be added.[citation needed] Hand washing has been shown to reduce the spread of infection.
Preliminary research also indicates S. epidermidis is universally found inside affected acne vulgaris pores, where Propionibacterium acnes is normally the sole resident.[11]
The normal practice of detecting S. epidermidis is by using appearance of colonies on selective media, bacterial morphology by light microscopy, catalase and slide coagulase testing. On the Baird-Parker agar with egg yolk supplement, colonies appear small and black. Increasingly, techniques such as quantitative PCR are being employed for the rapid detection and identification of Staphylococcus strains.[12][13] Normally, sensitivity to desferrioxamine can also be used to distinguish it from most other staphylococci, except in the case of Staphylococcus hominis, which is also sensitive. In this case, the production of acid from trehalose by S. hominis can be used to tell the two species apart.
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リンク元 | 「表皮ブドウ球菌」 |
関連記事 | 「S」「epidermidis」 |
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