1. Gram Positive cocci
Staphylococci

2. Introduction The staphylococci are: gram-positive , spherical cells,
arranged in grape-like irregular clusters.

3. They grow readily on many types of media. ferment carbohydrates
produce pigments that vary from white to deep yellow.
Some are members of the normal flora of the skin and mucous membranes of humans.
Those found in the environment are called Micrococci.

5. Diseases
wounds ,abscess formation, pimple," hair follicle infection. bacteremia, endocarditis, osteomyelitis, meningitis, or pulmonary infection. Toxic shock syndrome, fever, vomiting, diarrhea, myalgias, a scarlatiniform rash, and hypotension, cardiac and renal failure, occurs in children or in men with staphylococcal wound infections, in wounds infections, or in the throat, a variety of pyogenic infections, even septicemia, Food poisoning.

6. Some Skin infections

7. Pathogenic forms The three main species of clinical importance are
Staphylococcus aureus, = coagulase-positive
Staphylococcus epidermidis, and Staphylococcus saprophyticus= which together are called Staph albus.

8. Morphology & Identification
Typical cell of the Organism
are spherical cells about 1 µm in diameter arranged in irregular clusters …
Single cocci, pairs, tetrads, and chains forms
in liquid cultures.

9. Young cocci stain strongly gram-positive; on aging, many cells become gram-negative.
Staphylococci are non-motile
do not form spores.

10. Gram stain +ve cocci in clusters

11. Gram positive cocci in clusters

12. Culture
Staphylococci grow readily on most bacteriologic media under aerobic or microaerophilic conditions.
at 37 °C but form pigment best at room temperature (20–25 °C).
Colonies on solid media are round, smooth, raised, and glistening.
S aureus usually forms gray to deep golden yellow colonies.

13. Staph colonies on BA

14. S epidermidis colonies usually are gray to white on primary isolation; many colonies develop pigment only upon prolonged incubation.
No pigment is produced in anaerobic cultures or in broth.

15. Various degrees of hemolysis are produced by S aureus and occasionally by other species.
Peptostreptococcus species, are anaerobic cocci, which often resemble staphylococci in morphology

16. Characteristics
The staphylococci produce catalase, which differentiates them from the streptococci which are catalase negative.
ferment many carbohydrates, producing lactic acid but not gas.
Proteolytic enzymes activity varies greatly among.
Resistant to drying, heat (they withstand 50 °C for 30 minutes), and 9% sodium chloride but are readily inhibited by certain chemicals, eg, 3% hexachlorophene.

18. Staphylococci are variably sensitive to many antimicrobial drugs
Staphylococci are variably sensitive to many antimicrobial drugs. Resistance falls into several classes:
1. β-Lactamase production is common, is under plasmid control,so resistant to many penicillins (penicillin G, ampicillin, ticarcillin, piperacillin, and similar drugs) by transduction & conjugation.
2. Resistance to nafcillin (and to methicillin and oxacillin) is due to the mecA gene on the chromosome which encodes a low-affinity penicillin binding protein (PBP2 or PBP2a).

19. S aureus is considered to be susceptible to vancomycin but resistant strains are developing. These are often known as vancomycin-intermediate S aureus, or "VISA. The mechanism of resistance is associated with increased cell wall synthesis and alterations in the cell wall
Vancomycin resistant S aureus strains are nafcillin-resistant but generally are susceptible to oxazolidinones and to quinupristin/dalfopristin.

20. Several isolates of vancomycin-resistant S aureus (VRSA) strains isolates contained the vancomycin resistance gene vanA from enterococci and the nafcillin resistance gene mecA .
Vancomycin resistance in S aureus is of major concern worldwide.

21. Tolerance Staphylococci are inhibited by a drug but not killed by it.
Note— there is great difference between minimal inhibitory and minimal lethal concentrations of an antimicrobial drug.

22. Variation
A culture of staphylococci may contain some bacteria that differ from the bulk of the population in expression of colony characteristics (such colony size, pigment, hemolysis), in enzyme elaboration, in drug resistance, and in pathogenicity.

23. Antigenic Structure Staphylococci contain antigenic
polysaccharides and
proteins as well as other substances important in cell wall structure.
Peptidoglycan, a polysaccharide polymer containing linked subunits, provides the rigid exoskeleton of the cell wall.
Peptidoglycan is destroyed by strong acid or exposure to lysozyme. It is important in the pathogenesis of infection: It elicits production of interleukin-1 (endogenous pyrogen) and opsonic antibodies by monocytes, and it can be a chemoattractant for polymorphonuclear leukocytes, have endotoxin-like activity, and activate complement.

24. Teichoic acids, in the peptidoglycan and can be antigenic.
Protein A is a cell wall component of many S aureus strains that binds to IgG molecules (except IgG3).
Protein A -: Protein A with attached IgG molecules directed against a specific bacterial antigen agglutinates bacteria that have the antigen ("coagglutination").

25. Staph aureus
S aureus have coagulase, or clumping factor on the cell wall surface.
coagulase binds to fibrinogen in plasma (not serum) forming aggregation of the bacteria.

26. Enzymes & Toxins
Catalase—this test differentiate Staph from Streptococci.
Coagulase —test identifies Staph aureus (is +ve).
Clumping factor is responsible for adherence of the organisms to fibrinogen and fibrin. When mixed with plasma, S aureus forms clumps. Clumping factor is distinct from coagulase

27. Other Enzymes Other enzymes produced by staphylococci include
hyaluronidase, or spreading factor;
staphylokinase resulting in fibrinolysis
proteinases;
lipases; and β-lactamases

28. Exotoxins
The α-toxin is a potent hemolysin many kinds of cells, including human red blood cells.
These protein toxins are capable of efficiently lysing white blood cells.
Leukocidin
This toxin of S aureus has two components-kill white blood cells of humans and rabbits.

29. Exfoliative Toxins These epidermolytic toxins of S aureus .
Epidermolytic toxin A is a chromosomal gene product and is heat-stable.
Epidermolytic toxin B is plasmid-mediated and heat-labile.
Together they cause generalized desquamation of the skin called staphylococcal scalded skin syndrome .
..they are superantigens.

30. Toxic Shock Syndrome Toxin
Most S aureus strains isolated from patients with toxic shock syndrome produce a toxin called toxic shock syndrome toxin-1 (TSST-1), which is the same as enterotoxin F.
TSST-1 is a typical superantigen.
The toxin is associated with fever, shock, and multisystem involvement, including a desquamative skin rash. The gene for TSST-1 is found in about 20% of S aureus isolates.

31. Enterotoxins
There are multiple (A–E, G–I, K–M) enterotoxins. 50% of S aureus strains can produce & causes food poisoning.
Like TSST-1, the enterotoxins are superantigens. The enterotoxins are heat-stable.
Enterotoxins are produced when S aureus grows in carbohydrate and protein foods.
Ingestion of 25 g of enterotoxin B results in vomiting and diarrhea. The emetic (vomiting) effect of enterotoxin is probably the result of central nervous system.
The exfoliative toxins, TSST-1, and the enterotoxin genes are on a chromosomal element called a pathogenicity island.

32. Diagnostic Laboratory Tests
Specimens:-
Surface swab pus,
blood,
tracheal aspirate,
or spinal fluid for culture,

33. Smears Prepare smear and do Gram stain.
Typical staphylococci appear as gram positive cocci in clusters in Gram-stained smears of pus or sputum

34. Culture
Grow on blood agar plates in 18 hours at 37 °C, hemolysis and pigment production may not occur until several days later and are optimal at room temperature.
S aureus but not other staphylococci ferment mannitol. Specimens contaminated with a mixed flora can be cultured on media containing 7.5% NaCl. Mannitol salt agar is selective.

35. Catalase Test
A drop of 3% hydrogen peroxide solution is placed on a slide, and a small amount of the bacterial growth is placed in the solution. The formation of bubbles (the release of oxygen) indicates a positive test.

36. Coagulase Test
Citrated rabbit (or human) plasma diluted 1:5 is mixed with an equal volume of broth culture or growth from colonies on agar and incubated at 37 °C.
A tube of plasma mixed with sterile broth is included as a control.
If clots form in 1–4 hours, the test is positive. Slide test?
Coagulase-positive staphylococci are considered pathogenic for humans. Infections of prosthetic devices can be caused by organisms of the coagulase-negative S epidermidis group.

37. Susceptibility Testing
Staph are resistant to many antibiotics.
Test many drugs including penicillins and cephalosporins.

38. Prevention

39. Gram positive cocci
STREPTOCOCCI

40. The streptococci are
gram-positive spherical bacteria
form pairs,
chains during growth.

41. Classification of Streptococci
The classification has been based on observations over many years:
1. colony morphology and hemolytic reactions on blood agar.
2. serologic specificity of the cell wall antigens and capsular antigens
3. biochemical reactions and resistance to physical and chemical factors.
4. ecologic features.

43. Haemolysis
Complete disruption of erythrocytes with clearing of the blood around the bacterial growth is called β-haemolysis.
Incomplete lysis of erythrocytes with reduction of hemoglobin and the formation of green pigment is called α-haemolysis.
Some other streptococci are non-haemolytic (sometimes called gamma or γ-haemolysis).

44. Lancefield Classification
The cell wall has many amino sugars or group-specific carbohydrate. These are used for grouping into Lancefield groups A–H and K–U.
Group A streptococci- rhamnose-N-acetylglucosamine
Group B - rhamnose-glucosamine polysaccharide
Group C -rhamnose-N-acetylgalactosamine;
Group D -glycerol teichoic acid containing D-alanine and glucose
Group F- glucopyranosyl-N-acetylgalactosamine

45. Approach to Lancefield Classification
Many methods were used. Culture was treated with :
hot hydrochloric acid,
nitrous acid,
formamide;
enzymatic lysis(eg, with pepsin or trypsin).
These extracts contain the carbohydrate group–specific antigens/ substance that yield precipitin reactions specific antisera. This permits arrangement of many streptococci into groups A–H and K–U. Typing is generally done only for groups A, B, C, F, and G.

46. Capsular Polysaccharides
The antigenic specificity of the capsular polysaccharides is used to classify Strept pneumoniae into over 90 types
to type the group B streptococci also called Streptococcus agalactiae.

47. Toxins & Enzymes
More than 20 extracellular products (Toxins & Enzymes) that are antigenic are produced by S pyogenes.
Streptokinase (Fibrinolysin)- digests fibrin
Streptodornase or Streptococcal deoxyribonuclease)- for ezymatic debridement of purulent exudates.
Hyaluronidase— dissioves tissue so spreading factor

48. Pyrogenic Exotoxins (Erythrogenic Toxin)-there are three antigenically distinct streptococcal pyrogenic exotoxins: A, B, and C.
‘ A’ causes streptococcal toxic shock syndrome and scarlet fever.
Diphosphopyridine Nucleotidase-ability to kill leukocytes
Haemolysins also called streptolysins-Streptolysin O
-causes haemolysis on BA. Antistreptolysin O..titre of units is diagnostic of current or recent strep infection.

49. Pathogenesis & Clinical Findings
The diseases are many

50. Diseases Attributable to Invasion by S pyogenes, β-Hemolytic Group A Streptococci
Erysipelas

51. Symptoms of erysipelas
Symptoms in the infected area
Skin sore with a raised edge
Pain
Swelling
Redness
Hardened appearance
Bodily symptoms
High fever
Prolonged muscle stiffness
Confusion or mental status changes, particularly in elderly patients

52. Cellulitis
Streptococcal cellulitis is an acute, rapidly spreading infection of the skin and subcutaneous tissues. It follows infection associated with mild trauma, burns, wounds, or surgical incisions.
Pain, tenderness, swelling, and erythema occur.
Cellulitis is differentiated from erysipelas is In cellulitis, the lesion is not raised.

53. Necrotizing Fasciitis (Streptococcal Gangrene)
Extensive and very rapidly spreading necrosis of the skin and subcutaneous tissues.
Group A streptococci that causes the disease is called "flesh-eating bacteria“.

54. Puerperal Fever
If the streptococci enter the uterus after delivery, puerperal fever develops, which is essentially a septicemia originating in the infected wound (endometritis).

55. Bacteremia/Sepsis
Infection of traumatic or surgical wounds with streptococci results in bacteremia, which rapidly can be fatal.
S pyogenes bacteremia can also follow skin infections, such as cellulitis and rarely pharyngitis

56. Local Infection with S pyogenes and Their By-Products
Streptococcal Sore Throat
nasopharyngitis,
tonsillitis

57. Streptococcal Pyoderma
Local infection of superficial layers of skin, especially in children, is called impetigo

58. Invasive Group A Streptococcal Infections, Streptococcal Toxic Shock Syndrome, and Scarlet Fever
Fulminant, invasive S pyogenes infections with streptococcal toxic shock syndrome are characterized by shock, bacteremia, respiratory failure.

59. Poststreptococcal Diseases
Rheumatic Fever-- In acute nephritis, there is blood and protein in the urine, edema, high blood pressure, and urea nitrogen retention; serum complement levels are also low.

60. Post Strept
Glomerulonephritis--In acute nephritis, there is blood and protein in the urine, edema, high blood pressure, and urea nitrogen retention; serum complement levels are also low. A few patients die; some develop chronic glomerulonephritis with ultimate kidney failure; and the majority recover completely.

61. Rheumatic Fever
This is the most serious sequela of S pyogenes because it results in damage to heart muscle and valves.
Sequela is condition following as a consequence of disease

62. Diagnostic Laboratory Tests
Specimens
Specimens .
A throat swab, pus, or blood is obtained for culture. Serum is obtained for antibody determinations.

63. Smears
Smears from pus often show single cocci or pairs rather than definite chains.
gram-positive.
Smears of throat swabs masked by viridans streptococci.

64. Culture
Cultured on blood agar plates. If anaerobes are suspected, suitable anaerobic media must also be inoculated. Incubation in 10% CO2 often speeds haemolysis.
Chocolate agar –look for haemolysis

65. Streptococci belonging to group A may be identified by inhibition of growth by bacitracin.

66. Other Streptococci Streptococcus agalactiae
These are the group B streptococci.
Are -haemolytic and produce zones of haemolysis .

67. Groups C and G
These are in the nasopharynx and may cause pharyngitis, sinusitis, bacteremia, or endocarditis.
They often look like group A S pyogenes on blood agar medium and are -hemolytic.

68. Streptococcus bovis
These are among the nonenterococcal group D streptococci
Are part of the enteric flora, occasionally cause endocarditis, and sometimes cause bacteremia in patients with colon carcinoma. They are nonhemolytic and PYR-negative

69. Streptococcus anginosus Group
Other species names in the S anginosus group are S constellatus and S intermedius. They are sometimes referred to as the S milleri group. These streptococci are part of the normal flora. They may be β-, α-, or nonhemolytic. S anginosus group includes -hemolytic streptococci

70. Group N Streptococci
They are rarely found in human disease states but produce normal coagulation ("souring") of milk.
Groups E, F, G, H, and K–U Streptococci
These streptococci occur primarily in animals. One of the multiple species of group G streptococci, S canis, can cause skin infections of dogs but uncommonly infects humans; other species of group G streptococci infect humans.

71. Viridans Streptococci
The viridans streptococci include S mitis,
S mutans,
S salivarius,
S sanguis.
Typically they are α-hemolytic

72. Peptostreptococcus (Many Species)
They are anaerobic

73. Streptococcus pneumoniae
Morphology & Identification
Typical Organisms are
gram-positive,
lancet-shaped diplococci
Lysis of pneumococci occurs in a few minutes when ox bile (10%) or sodium deoxycholate (2%) is added to its broth culture

74. Pneumococci –Gram stain

75. Quellung Reaction
When pneumococci of a certain type are mixed with specific antipolysaccharide serum of the same type—or with polyvalent antiserum—on a microscope slide, the capsule swells markedly, and the organisms agglutinate by cross-linking of the antibodies. This reaction is useful for rapid identification and for typing of the organisms, either in sputum or in cultures

76. Diseases Production of Disease no toxins of significance
capsule has the virulence power

77. Pathology
Pneumococcal infection causes an outpouring of fibrinous edema fluid into the alveoli, followed by red cells and leukocytes,
in consolidation of portions of the lung. bloodstream via the lymphatic drainage of the lungs. mononuclear cells actively phagocytose the debris, The pneumococci are taken up by phagocytes and digested intracellularly.

78. Diagnostic Laboratory Tests
Blood is drawn for culture; CSF and sputum are collected for demonstration of pneumococci by smear and culture.
Serum antibody tests are impractical.

79. Stained Smears
A Gram-stained film of rusty-red sputum shows typical organisms, many polymorphonuclear neutrophils, and many red cells.

80. Capsule Swelling Tests
Fresh emulsified sputum mixed with antiserum causes capsule swelling (the quellung reaction) for identification of pneumococci.

81. Culture
The culture is created by sputum cultured on blood agar and incubated in CO2 or a candle jar.

82. Treatment
Since pneumococci are sensitive to many antimicrobial drugs

83. Enterococci
The enterococci have the group D group-specific substance and were previously classified as group D streptococci.