1 / 13

Practical 7 - Pseudomonas, Bordetella, Bacillus

Practical 7 - Pseudomonas, Bordetella, Bacillus. Hospital infections Whooping cought Antrax a bioterorismus Microscopy - sc. Gram - Ps. aeruginosa, Bacillus anthracis, Bacillus cereus, sc.Wirtz Coonklin Bac. anthracis

jamar
Télécharger la présentation

Practical 7 - Pseudomonas, Bordetella, Bacillus

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Practical 7- Pseudomonas, Bordetella, Bacillus • Hospital infections • Whooping cought • Antrax a bioterorismus • Microscopy - sc. Gram - Ps. aeruginosa, Bacillus anthracis, Bacillus cereus, sc.Wirtz Coonklin Bac. anthracis • Cultivation Ps. aeruginosa on blood agar and Endo, Bordetella pertussis on Bordet Gengou, B. anthracis a B. cereus on blood agar • Biochemical properties of Ps. aeruginosa • Ascoli thermoprecipitation • Cultivation of B. pertussis • ATB therapy of Ps. aeruginosa

  2. Hospital - nosocomial infections • Hospital infection - infection, that arises in connection to hospitalisation or to diagnostical, therapeutic or preventive processes. I does not necessary have to present during the hospitalisation and not every infection arising during hospitalisation is nosocomial • Risk factors - age,accompanying diseases, surgical processes therapy - ATB, imunosupression, irradiation, not vital reservoire - indwelling catheters) • Microbes • Ways of transmission - in direct (inhalation, ingescion, inoculation) , direct (contact of infected skin or mucous membrane with healthy) • Prevetion - organisation of health process, construction, food supply, health process technics, asepsis and antisepsis, nursery approches, isolation, monitoring, surveillance, role of microbiologickal laboratory) • ATB therapy

  3. Role of microbes in hospital infections • Staphylococcus aureus - problems of per secundam healing wounds (70 ies). Virulence, colonisation capacitiy, resistence - MRSA - methicilin resistent staphylococcus aureus (80 ies) • G-rods (60% of HI) - urinary tract infections, respiratory infections, wound infection, GIT • Opportunistic pathogens - Ps. aeruginosa (Hospital environmente – food, cut flowers, water, toels, mops, respiration devices, desinfection solutions. Persistent carriage in less than 6% helathy, 38% in hospitalised, 78% imunocompromised) and other non fermenting G- rods - Acinetobacter, Stenotrophomonas maltophilia, Burkholderia cepacia… - present in environmentí (Legionella pneumophila - climatisation) • PK negative staphylococci - colonisation of plastic material of indwelling catheters • Viruses - blood borne infection agenses HIV, VHB, VHC, CMV….

  4. ATB therapy in hospital infections • Overuse of ATBe - resistence and multiresistence (selection pressure of ATB and transmission in hospital environment), toxic side effects, economic burden, deterioration of physiological microflora • Racional indication - preventive in spread of HI • Prophylaxis - oriented to anaerobe infectione - perioperative preparation for GIT and UGT surgery, in instrumental examination of patients with bacteriuria • ATB surveys - monitoring of ATB susceptibility • Restrictive policy - time restricted contraindication of some ATB • Rotation of atb - periodical changes of used - decreasing of selection pressure • Combination of atb - agains possible resistent mutnants, broader antimicrobial spectrum

  5. Whooping cought • Clinical signs Inhalation of infectious droplets Patogenesis – exposition to bacteria and attachment to cylindric epitelium of bronchial stroma, production of toxinu and of tissu destruction + systemic toxicity – catharral phase (1-2 weeks) - sy influenza disease – paroxysmal phase (2- 4 weeks) - destruction of epitel – paroxysmus of cought – restriction of respiratory ways, vomiting, lymfocytosis – reconvalescence – decrease of paroxysmi - secundary complication Prevention Whool cell vaccine - neurological? ( combination with diphtheric, tetanic and Hib or VHB vakccine). Acellular vaccine – imunogenicity ? Therapy - supporting, nursing, survey, ATB do not necessary have to ameliorate the state – intoxication and destruction of epithel - ERY -eradiction of bacteriae, reduction of infectiousity

  6. Anthrax a bioterorismus • Very virulent (toxin) • Inhalation, ingescion and contact - spread by air - aerosol, bombes, water • Resistent - broad thermal interval (14-42*C). Spores - resistent to drying

  7. Mikroscopy • Mikroscopy - sc. Gram - Ps. aeruginosa,: G- huge rod • G+ huge rod , long chains of rods with centrally located spores: Bacillus anthracis. In smear from tissue - not spores. • Bacillus cereus: G+ rod without capsule, motile • - sc. Wirtz Coonklin (practicals 4 ST) - detection of spores of Bacillus anthracis

  8. Cultivation • Ps. aeruginosa on blood agar - mucous gray colonies with methal lood and pigment and characteristic smell Production of diffusibile pigment - pyocyanin and of capsule • B. anthracis on blood agar- aerobe, facult. anaerobe rod, t.: 14- 45*C, small graish adherent colonies lining in paralel way - growing in picture of caput medusae, colonies with wave edges. Encapsulated colonies are soft, non encapsulated are rough, Older colonies growing in aerobe environment contain spores - dry wrinkled look. Growth on medium with PNC - chain of pearls • B. cereus on blood agar - not producing capsule, gray colonies

  9. Cultivation of Bordetella pertussis • Very difficult, aerobe, prolonged cultivation, production of toxic metabolites, must be absorbed with active charcoal, high concentration of blood and ATB - Bodette Gengou medium • Plates with high level of agar, ensured agains drying • Transparent colonies (B. parapertussis - brown pigment)

  10. Biochemical properties of Ps.aeruginosa • Minimal nutrition requirements, thermotolerant 4*- 42* C, rezistent to ATB and desinection Nonfermenting – cytochromoxidase – dif.dg. (COX test), Hajn tube medium - without change - red - detection of pigment and smell.On transparent media - green pigment • Oportunistic: factors of virulence: Pilli - adherence Polysacharid capsule – antifagocytosis, attachment, Endotoxin – LPS sepsis Exotoxin A – most important, blocs proteosynthesis of eukaryotic cells Alkalic protease – destruction of tissu Phospholipase C – destruction of lipids and lecithin, destruction of tissue

  11. Ascoli termoprecipitation reaction • Detection of antigens extracted by heat directly from biological material by antibodies in agar • Factors of pathogenicity - capsule and toxins - both have antifagocytic properties, toxin - effect on CNS, leu. Fagocyted spores are not destroyed • Toxin - 3 subunits : EF - oedematogenous factor, LF - lethal factor, protective antigen PA • EF+LF - not toxic effect • LF+PA - lethal, not oedematogenous • EF+PA - only len oedem • EF+PA+LF - maximal toxicity • PA - most immunogenic • EF, LF solely not immunogenic • EF+PA, EF+LF, LT+PA, EF+LF+PA - immunogenic

  12. B.pertussis - sampling and cultivation • Sample from nasopharynx - on bound wire, humidity. Coughing plates - overgroth of contaminating flora - (Blood agar + active charcoal +ATB, or Bordette Gengou) Bordetella pertussis – nutritionally very requiring, virulent. Pertussic toxin – 2 subunits: A (active) multiple biological effects, B(binding) Dermonecrotic toxin – vasoconstriction, tissue destructione Filamentous haemaglutinin – attachement, hemagglutination -protective Ab, Adenyl cyclase - toxin – interference with immunity cells (inhibition), Tracheal cytotoxin – cilliostasis, LPS - endotoxin Laboratory diagnosis Sensitiveto drying, fat acid in cotton of sampling devices are toxic, not living in common transport media, direct innoculation on Bordet Gengou plate. Humid chamber - prolonged incubation – 7 days Serology -Agglutination: patient serum + Ag B. pertussis - 2 samples in 14 days interval, 4 fold increase of titer, conversion from negat to pozit

  13. ATB susceptibility of pseudomonas • Therapy - Frustrating – immunocompromised defence of patient, typical ATB rezistence induction of ATB inactivating enzymes resistence transmission via plasmids Isolation without signs of infection is not indication for ATB therapeutic intervention • Aminoglycosides – useless in the place of infection, acid environment in abscess Combination of ATB – beta lactams + aminoglycosides, Meronem, Imipenem, Sulperason, Cefoperason • Preventive approaches - Interruption of contamination of steril materials and cross contamination. Decontamination of fits and and tubes and catheters and environment - nosocomial strains in intensive care units. Broad spectrum ATB use - very carefully - suppression of normal flora and overgrowth of resistent bacteria and mutants

More Related