Staphylococcus and Micrococcus Lecture Notes PDF
Document Details
Uploaded by Deleted User
Our Lady of Fatima University
Tags
Summary
These lecture notes cover the characteristics, identification methods, and treatment of Staphylococcus and Micrococcus. They are geared towards an undergraduate medical microbiology course at Our Lady of Fatima University.
Full Transcript
OUR LADY OF FATIMA UNIVERSITY – ANTIPOLO CAMPUS COLLEGE OF MEDICAL LABORATORY SCIENCE CLINICAL BACTERIOLOGY 211 LECTURE GRAM POSITIVE COCCI Morphologically round in shape Violet/purple GRAM POSITIVE COCCI Kingdom Monera Monera Family Micrococcaceae Streptococcaceae...
OUR LADY OF FATIMA UNIVERSITY – ANTIPOLO CAMPUS COLLEGE OF MEDICAL LABORATORY SCIENCE CLINICAL BACTERIOLOGY 211 LECTURE GRAM POSITIVE COCCI Morphologically round in shape Violet/purple GRAM POSITIVE COCCI Kingdom Monera Monera Family Micrococcaceae Streptococcaceae Genus Streptococcus Micrococcus Enterococcus Staphylococcus Aerococcus Stomatococcus Leuconcoccus Planococcus Gemella Pediococcus MICROCOCCUS STAPHYLOCOCCUS STREPTOCOCCUS Morphology: Gram Pairs, tetrads, irreg. Clusters Chains Stain clusters Growth characteristics Obligate aerobe Facultative Facultative anaerobe (5% SDA) anaerobe Colonies Small-medium Medium-large Small (pinpoint) (pinhead) Hemolysis Non-hemolytic Beta-hemolysis Alpha, Beta, Gamma Non-hemolytic hemolysis Catalase test + + - O/F test Non-glucose fermenter Glucose fermenter (-) (+) Glucose oxidizer (+) Glucose oxidizer (+) Modifies Oxidase Test + - - Lystostaphin R S V Furazolidone (100 ug R S V disk) Bacitracin (0.04 ug disk) S R Group A = S Others = R Staphylococcus spp. STAPHLE u Two groups: 1. Coagulase-positive Staphylococci a) S. aureus – golden-yellow colonies; pathogenic 2. Coagulase-negative Staphylococci (CoNS) a) S. aureus – lemon yellow colonies; chromogenic opportunistic pathogen b) S. citreus – white pigment; chromogenic opportunistic pathogen Staphylococcus c) S. albus – white pigment spp. d) S. hyicus – animal pathogen e) S. intermedius – animal pathogen f) S. epidermidis – predominant normal flora on the skin; leading cause of Iantrogenic infection g) S. saprophyticus – opportunistic pathogen; normal flora of skin; frequently cause UTI, abortion/miscarriages h) S. lugdunensis – opportunistic pathogen; normal flora i) S. haemolyticus – recovered in wounds, UTIs General Characteristics of Staphylococci u Common inhabitant of the skin and mucous membranes, responsible for several suppurative infections u Gram-positive cocci, catalase-positive u Spherical cells arranged in irregular clusters, appear singly, in pairs u Nonmotile, non-spore forming u Aerobic or facultatively anaerobe EXCEPT for S. saccharolyticus (obligate anaerobe) u Lack spores and flagella (non-motile), may have capsules General characteristics of Staphylococci u Colonies are medium sized (4 to 8 mm) and appear cream-colored, white or rarely light gold, and “buttery-looking” u Some species are β-hemolytic u Rare strains of staphylococci are fastidious requiring carbon dioxide, hemin, or menadione for growth. u so-called small colony variants grow on media containing blood, forming colonies about 1/10 the size of wild-type strains after at least 48 hours of incubation. Staphylococcus aureus u Most clinically significant species in human u Coagulase-positive u It causes various cutaneous infections and purulent abscesses. u These cutaneous infections can progress to deeper abscesses involving other organ systems and produce bacteremia and septicemia. u Subdivided into two groups based on their novobiocin susceptibility pattern: 1. Novobiocin susceptibility includes Coagulase- S. Epidermidis, S. Capitis, S. Haemolyticus, S. Hominis subsp. negative Hominis, S. Lugdunensis, S. staphylococci Saccharolyticus, S. Warneri, and (CoNS or non- other species staphylococcus 2. Novobiocin resistant group aureus) consists of such species as S. Cohnii, S. Kloosii, S. Saprophyticus, and S. Xylosus Other coagulase-producing Staphylococci u S. intermedius u S. pseudintermedius u S. hyicus u S. delphini u S. lutrae u S. agnetis u Some strains of S. schleiferi u S. lugdunensis and S. schleiferi – mistaken as coagulase positive staphylococci because of the presence of clumping factor SPHINGOMYELINASE C 1. Cytolytic Toxins a. Hemolysin – (alpha, beta, delta, gamma) Virulence uPathogenic factor; destroys Factors of S. RBC Aureus b. Panton-Valentine Toxin/Leukocidin uRupture of WBCs 2. Enterotoxins – heat stable (100° C for 30 minutes); cause various symptoms Virulence inc. diarrhea and vomiting Factors of S. a. Enterotoxin A, B and D – cause of food poisoning Aureus 3. Toxic Shock Syndrome Toxin-1 (TSTT-1) u Formerly known as Enterotoxin F and pyrogenic exotoxin C u Causes: Toxic Shock Syndrome Virulence u The enterotoxins and TSST-1 belong Factors of S. to a class of polypeptides known as superantigens which are potent Aureus activators of T lymphocytes leading to the release of cytokines such as interleukins and tumor necrosis factor. 4. Epidermolytic Toxin (Exfoliative Toxin) Also known as ET or “exfoliatin” Virulence u Responsible for the staphylococcal Factors of S. u scalded skin syndrome (SSSS) Aureus u It is also has been implicated in bullous impetigo EXFOLIATIVE TOXIN –A EXFOLIATIVE TOXIN –B 5. Fibrolysin/Staphylokinase – responsible for lysin clot 6. Protein A and Polysaccharide A – responsible for anti-phagocytosis 7. Staphylocoagulase – localizes abscess; Virulence virulence factor Factors of S. 8. Hyaluronidase – degrades hyaluronic acid components of tissue; spreading factor Aureus 9. Lipase – spreading factor 10. DNAse – spreading factor u Other enzymes produced which are used to identify S. aureus: Gelatinase, Thermonuclease, Penicillinase, Catalase Infections caused by Staphylococcus aureus A. Cutaneous Infections (Skin and Wound Infections) u Infections caused by S. aureus are suppurative u The abscess is filled with pus and surrounded by necrotic tissues and damaged leukocytes u Common skin infections caused by S. aureus: 1. Folliculitis – inflammation of hair follicle or oil gland; infected area is raised and red 2. Furuncles (Boils) – extension of folliculitis; large, raised and superficial abscess 3. Carbuncles – cluster of boils 4. Bullous impetigo – larger than streptococcal nonbullous impetigo; surrounded by a small zone of erythema u Include osteomyelitis, periostitis, tonsillitis, pharyngitis, sinusitis, bronchopneumonia, empyema, B. Deep septicemia, meningitis, endocarditis, Infections breast abscess, renal abscess and abscesses in other organs. 1. Food Poisoning u The enterotoxins do not cause any detectable odor or change in the appearance or taste of the food u Symptoms appear rapidly (approximately 2 to 8 hours after ingestion of the food) and resolve within 24 to 48 hours u Nausea, vomiting, abdominal pain and severe C. Toxin- cramping (common) mediated u Diarrhea and headaches (rare) No fever Diseases u 2. Toxic Shock Syndrome (TSS) u Fatal, multisystem disease characterized by sudden onset of fever, chills, vomiting, diarrhea, muscle aches and rash (predominantly on the trunk) u Progress to hypotension and shock u Most cases occur in menstruating women who use tampons C. Toxin-mediated Diseases 3. Exfoliative Diseases u Lesions are produced by the strains of S. aureus which produce epidermolytic toxins u Responsible for the ‘staphylococcal scalded skin syndrome’ (SSSS), exfoliative skin diseases in which the outer layer of epidermis gets separated from the underlying tissues. u Staphylococcal Scalded Skin Syndrome u Bullous exfoliative dermatitis that occurs primarily in newborns and previously healthy young children u Severe form: Ritter’s Disease u Milder form: Pemphigus neonatorum and bullous impetigo (localized form) Laboratory identification of Staphylococcus and Micrococcus ISOLATION AND IDENTIFICATION u Grow easily on routine laboratory culture media – sheep blood agar (SBA) u Selective medium (for heavily contaminated specimen) u Mannitol Salt Agar (MSA), Columbia Colistin–nalidixic Acid Agar (CNA), or Phenylethyl Alcohol (PEA) agar u High NaCl concentration (7.5%) in MSA makes this medium selective for Staphylococcus, u Incorporation of mannitol and phenol red distinguishes S. aureus from most CoNS. A. Microscopic Examination u Purulent exudates, joint fluids, aspirated secretions, and other body fluids – cocci and PMN easily seen when these sites are infected with staphylococci u Culture should be done regardless of the results of the microscopic examination – genus or species cannot be appropriately identified u Aspirate is the best sample, a single swab would be less satisfactory for both culture and smear results A. Microscopic Examination u Spherical cocci; arranged characteristically in grape-like clusters u May also be found singly, in pairs and in short chains of three or four cells, especially when examined from liquid culture. u Long chains never occur u Non spore forming, non motile and usually non capsulated with the exception of rare strains. u Stain readily with aniline dyes and are uniformly gram-positive B. Cultural Characteristics Staphylococci: u SBA (after 18-24 hours of incubation at 35° C to 37° C) - round, smooth, white, creamy colonies u BAP - produce hemolytic zones around the colonies (beta-hemolytic) u Rarely exhibit pigment production (yellow) with extended incubation Staphylococcus aureus: u Nutrient agar – 1–3 mm in diameter and have a smooth glistening surface, an entire edge, a soft butyrous consistency and an opaque, pigmented appearance u Most strains produce golden-yellow (aureus) pigment (staphyloxanthin) u White-colony strains of S. aureus are fully virulent. B. Cultural Characteristics Staphylococcus aureus: u Blood Agar u Colonies have the same appearances as on nutrient agar, but may be surrounded by a zone of ß-hemolysis u Hemolysis is more likely to be present if sheep, human or rabbit blood is used. u Phenolphthalein Phosphate Agar (PPA) q An indicator medium and assists in the identification of S. aureus in mixed cultures q Colonies is similar to those on nutrient agar § Become bright pink when culture plate is inverted over ammonia for a minute or so Staphylococcus aureus: u Selective Salt Media: 1. 7–10% of sodium chloride may be added to Nutrient Agar (Salt Agar) or Milk Agar (Salt Milk Agar) 2. Mannitol Salt Agar with 1% mannitol B. Cultural 3. 7.5% NaCl Characteristics 4. Nutrient Agar with Phenol Red 5. Ludlam’s Medium containing lithium chloride and tellurite 6. Salt Cooked Meat Broth (10% NaCl) u S. epidermidis – small- to medium-sized, nonhemolytic, gray-to-white colonies; some weakly hemolytic u S. saprophyticus – slightly larger colonies, with about 50% of the strains producing a yellow pigment u S. haemolyticus – medium sized colonies, with moderate or weak hemolysis and variable pigment production u S. lugdunensis – small to medium size colonies, often hemolytic u NOTE: Identification of Staphylococci on the basis of colony morphology alone should not be done. C. Identification Methods 1. Catalase Test – demonstrate the presence of catalase à an enzyme that catalyses the release of oxygen from hydrogen peroxide (H2O2) u To distinguish Staphylococci spp. And Micrococci spp. (positive) u Reagent: 3% H2O2 u Positive result: bubble formation or effervescence B. Identification Methods 2. Coagulase (Slide or Tube Method) u Best single pathogenicity test for staphylococcus u 2 methods: 1. Slide Method (screening test) u Reagent: plasma u Detects bound coagulase (clumping factor) u Positive result: agglutination 2. Tube Method (confirmatory test) u Reagent : 0.5 mL rabbit’s plasma u Detects unbound coagulase (staphylocoagulase) u 35ºC incubation; initial time = 2 hours u 4 hours incubation (if negative, continue S. schleiferi incubation for 24 hours) u Positive result: coagulum/clot B. Identification Methods 3. Oxidation-Fermentation (O/F) Reactions u Medium used: O/F Glucose Medium u Two methods: 1. Open Method 2. Closed Method – add mineral oil as a barrier for oxygen u Interpretation of results: § Closed = (+) yellow: Fermentative § Open = (+) yellow; Oxidative § If both (+) = Staphylococci § If Closed is (-) and Open is (+) = Hugh and Leifson’s Medium Micrococcus B. Identification Methods 4. Modified Oxidase Test Active Chemical component Tetra- methyl-para- phenylene diamine dihydrochloride Results: § (+) = blue to purple to black complex [Micrococci] § (-) = no color change [Staphylococcus] B. Identification Methods 5. Mannitol Fermentation Staphylococcus spp. Fermentative (Glucose) Medium: Mannitol Salt Agar (+) result: yellow [S. aureus] (-) result: pink [CONS] Phenol red B. Identification Methods DNA HYDROLYSIS TEST 6. DNAse Test Medium: DNAse Medium Incubate at 25ºC for several hours (+) colorless zone (+) = S. aureus (-) = S. epidermidis 7. Gelatin Liquefaction/Hydrolysis Test 12% Gelatin Medium (Tube) Stabbing method Incubate at 35ºC for 16-18 hours (+) Liquefaction è Refrigeration (30 mins) (+) = S. aureus (-) = S. epidermidis B. Identification Methods 8. Novobiocin Susceptibility S. aureus S. epidermidis S. saprophyticus Coagulase + - - Novobiocin S S R Polymyxin R S S 9. Sugar Fermentation u Fermentsa range of sugars producing acid but no gas. u Sugar fermentation is of no B. Identification diagnostic value except for Methods mannitol, which is usually fermented anaerobically by S. aureus but not by other species Coagulase-negative Staphylococci (CONS) Staphylococcus epidermidis u Invariably present on normal man skin. u Infections are predominantly hospital acquired u Predisposing factors: uCatheterization uMedical Implantation uImmunosuppressive therapy u Most common cause of prosthetic valve endocarditis Staphylococcus saphrophyticus u UTIs in young women u Low numbers (