Enterococcus (Enterococcus faecalis, Enterococcus faecium etc.) Microscopy: G+ cocci in pairs or short chains, catalase negative Cultivation: small greyish white colonies on blood agar with viridation Some of them have yellow pigment, some are mobil selective diagnostic Slanetz-Bartley (sodium azide) agar - pink to red colonies Bile-aesculin agar: black colonies Biochemistry: pyrrolidonylarylamidase (PYR-positive) and leucinaminopeptidase (LAP-positive) high resistance, growing in 6,5% NaCl agar, large temperature interval Pathogenicity: part of normal digestive tract flora, more frequent in long therm hospitalised patients with medical devices or patients treated with broad spectrum antibiotics Urogenital infections, wound infections, intraabdominal infections, endocarditis – more often in drug users or seniors, catether sepsis, biliary tract infection e00184 Factors of virulence: gelatinase, feromon substance, colonization factors, bacteriocins - inhibition of other bacteria VanA, B, C gens causes rezistence to vancomycin (C is gen of primary resistence, VanA/B of secondary resistance, transferable through plasmides) Treatment: primary resistant to cefalosporines Liht urinary tract infection: ampicillin, ampicillin with b–lactamase inhibitors, nitrofurantoin, possible glycopeptides. Wound infections, sepsis and endocarditis: combination of aminoglykoside + penicillin/ampicillin or glycopeptides (vancomycin, teicoplanin) VRE (vancomycin resistant enterococci) – linezolid, quinupristin/dalfopristin Laboratory dg.: microscopy, cultivation on BA, on Slanetz-Bartley medium Latex agglutination – differentiation from streptococci, from other bacteria through PYR test and LAP Phenotypic test (production of yellow pigment, moovement) Biochemistry: fermentation of arabinosis and pyruvate: E. faecium E. faecalis arabinosis fermentation – change of the indicators colour without fermentation pyruvate negative pyruvate fermentation resistent to ampicilin susceptible to ampicillin EN-coccus test G+ rods Listeria monocytogenes Morphology: microscopy: G+ rods, catalase positive Cultivation: chromogennous media, growth in cold, on BA form grey colonies with haemolysis – looks like enterococci, streptococci or difteroids Pathogenicity: wound infection, new-born babies infection (meningitis or sepsis) Virulence factors: lysteriolysin, internalins (intracellular alive) Treatment: fluoroquinolons Laboratory dg.: microscopy, cultivation on chr. medium/ BA and bile-aesculin medium, catalase detection, BBL test C:\Documents and Settings\muprac\Dokumenty\Černohorská\LF MUas\1174404240.bmp Don´t eat Listeria Hysteria? Corynebacterium difteriae Microscopy: G+ rods with metachromatic granules, club-shaped looking like chineese signs, catalasa positive Cultivation: does not grow on MH, but on BA, on telur media (Clauberg) Pathogenicity: strains producing toxin (microb attacked by fag) causes diphteria with pablanes (couldn´t take off without bleeding), man suffocate, arise of myocarditis etc. Non-toxic strains causes skin inflammations. Factors of virulence: diphteric toxin Therapy: vaccination, antidiphteric globulin (deserters!), PNC, tracheostomy, cortikoids Laboratory dg.: microscopy, staining of specific parts - granules (Lebranc), Clauberg medium - metal shiny colonies with blue zone around colonies, Lofler medium, detection of toxins through Elek test, PCR, demonstration on guinea-pig. Other Corynebacteria (C. jejkeium etc.) Microscopy: G+ rods with metachromat. granules, club-shaped form looks like chineese signs, arranged in palisades, catalase positive Cultivation: any growth on MH, but BA Pathogenicity: wound infection, sepsis, urinary tract infections Factors of virulence: haemolysins Treatment: vancomycin, teicoplanin, rifampicin, if posssible - PNC Laboratory dg.: microscopy, cultivation on BA, biochemistry… Rod Bacillus B. antracis Microscopy: G+rods looks like bamboo stick, spors (central terminated) – only in air Cultivation: on BA – large, flat, spreading through the agar surface - caput medusae, ahaemolytical Pathogenicity and pathogenesis: contact with ill person, dead animals or their productes (skin), spors invade into organism, germinate and produce toxin. Via entrance is disease devided into 3 forms. 1. skin - pustula maligna 2. pulminal – after inhalation arises hemoragic necrosis of nodes with mediastinitis ends as septic shock 3. intestinal – via contaminated food – causes bloody diarrhea, high temperature etc. !! spors are easy to diffuse, that´s why it is discussed as a biological warfare!! Virulence: toxin (3components) Therapy: PNC, ciprofloxacin, doxycyklin, chloramphenicol Prevention: veterinary control of animal, vaccination of animal or people Laboratory diagnosis: microscopy, cultivation on BA Antigen detection - Ascoli termoprecipitation reaction, animal demonstration !! Can do only laboratory with biosafety level III. C:\Documents and Settings\muprac\Dokumenty\Černohorská\LF MUas\podzimní semestr\obalka.gif C:\Documents and Settings\muprac\Dokumenty\Černohorská\LF MUas\podzimní semestr\ompovabac13a.jpg C:\Documents and Settings\muprac\Dokumenty\Černohorská\LF MUas\anthrax2.gif B. cereus Microscopy: G+rods, central terminated spores Cultivation: on BA flat colonies with β haemolysis, PEMBA-blue colonies Pathogenicity: component of gastrointesinal flora, contamination of food, causing diarrhea, vomitting. Diarrhea is caused by thermolabil enterotoxin (source: sauce), vomitting is caused by thermostabil toxin (source: rice). Also causes eye + wound infection Factors of virulence: enterotoxins Treatment: rehydratation + linkosamids. Prevention: good food preparation Eye infection: lincosamids + aminoglycosides Laboratory dg.: microscopy, cultivation on BA/PEMBA, detection of granules toxin detection via ELISA method or latex agglutination D:\Documents and Settings\lenka\My Documents\My Pictures\ryze.jpg