Staphylococcaceae pdf - د. انسام محمد

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Staphylococcaceae Lecture.1

د. انسام محمد

The members of this family are gram positive, catalase positive cocci forming irregular

clusters. They grow aerobically and can be facultative anaerobic. It includes

Staphylococcus and other genera.

Genus staphylococcus

Staphylococci are gram positive spherical cells arranged in single, pairs, tetrads or

usually in grape-like irregular clusters.

Non motile, non spore forming, aerobic or facultative anaerobic and are catalase

positive, oxidase negative and resistant to bacitracin.

The genus staphylococcus is composed of several spp. Many of them are part of the

normal flora.

Staphylococci are initially differentiated by coagulase into:

Coagulase positive S. aureus (pyogenes)

Coagulase negative (CoNS): more than 35 spp. of CoNS is identified those of clinical

significance are:

S. epidermidis (albus)

S. saprophyticus (citreus)

Morphology and identification of Staphylococci:

Microscopical appearance:

Staphylococci are gram positive spherical cells about 1µm in diameter, arranged in

irregular clusters, non motile and non spore forming.

Cultural characteristics

Staphylococci grow on most bacteriological media in aerobic and facultative anaerobic

conditions. They grow rapidly at 37Cº but form pigments best at room temperature.

Colonies on solid media are round smooth raised and pigmented.

Staphylococcus aureus

usually forms golden yellow colonies.

Staphylococcus epidermidis forms white colonies.

Staphylococcus saprophyticus 50% forms lemon yellow colonies.

Staphylococci are resistant to drying, heat (50Cº) for 30 min and are inhibited by certain

chemicals. Staphylococci grow in the presence of 10% NaCl between 18°C and 40°C.

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Staphylococcus aureus

It is the most important isolate in this family, and is responsible for infections from

mild to a life-threatening infection. It

’s an important cause of hospital acquired infections.

The anterior nares are the principal habitat for S. aureus. Approximately 50% of

people are either permanently or intermittently colonized. Three types of S. aureus nasal

carriers have been distinguished: persistent carriers, intermittent carriers, and non

carriers.

From the anterior nares S. aureus can be transferred to skin and other body areas.

Nasal colonization plays a crucial role as a source of invasive infections. The throat, the

intestine, the vagina, the intertriginous skin folds, the axillae, and the perineum are also

found to be regularly colonized. Increased drug resistance in the last decade is an

important concern.

Staphylococci are also found regularly on clothing, bed linens, and other fomites in human

environment. The pathogenicity of S. aureus is the combined effect of extracellular factors

and toxins together with the invasiveness of the strain.

Antigenic structure

1- Peptidoglycan a polysaccharide provides rigidity to the cell wall and is destroyed

by strong acid or lysozymes.

2- Tiechoic acid linked to peptidoglycan and can be antigenic. It plays an important

role in adherence, activation of complements and chemotaxis (movement of cells

in response to chemical stimuli) of PMN (polymorph nuclear leukocytes).

3- Protein A has the ability to bind to the FC (fragment of crystallization) portion of all

IgG, so it prevents specific antibody from binding to the bacteria.

4- Capsular polysaccharides: its present in some strains and it prevents the

ingestion of the MO by the PMN.

Enzymes and toxins

Staphylococci can produce diseases through their production of many extracellular

substances as enzymes and toxins.

Enzymes

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1- Catalase: produced by all staphylococci.

2- Coagulase: only staphylococcus aureus produces coagulase that binds to

prothrombin and deposit fibrin on the surface of staphylococci and alter their

ingestion by phagocytic cells. There are two types of coagulase

a. Bound coagulase or called clumping factor

b. Free coagulase (staphylocoagulase) it is found free form in the medium and directly

convert fibrinogen to fibrin leading to clot formation.

3- Staphylokinase it causes fibrinolysis.

4- Hyaluronidase.

5- Lipases.

6- Proteinases

7- B- lactamase.

Toxins

1. Exotoxins as Alpha toxin, beta toxin.

2. Enterotoxin: Heat stable exotoxin resist boiling for 30min.causes food poisoning.

3. TSST-1(toxic shock syndrome toxin-1).

4. Exfoliative toxin is epidermolytic toxin causes staphylococcus scalded skin

syndrome leading to generalized desquamation.

5. Leucocidin which kills WBC.

Infections caused by S. aureus:

Superficial infections:

S. aureus infections are suppurative (abscess forming)

a. Impetigo

b. Folliculitis, furuncles (boils), styes

c. Carbuncles

d. Wound infection

Deep infections

a- Osteomylitis

b- Pneumonia

c- Acute endocarditis

d- Arthritis, meningitis, bacteremia, septicemia and abscess of brain and kidney.

Toxin mediated illness

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Scalded skin syndrome (Ritter's disease) it is characterized by rash over most

of the body, like burned skin. Upper layer of skin peel off. It occurs most often in

new born baby with low mortality rate (3%). It also occurs in adults in patients with

severe infections with low immunity so it had a poor prognosis with high mortality

rate (50%). S. aureus produce toxin at the site of infection and the toxin travel to

the blood.

Staphylococcal food poisoning: caused by staphylococcal toxin released in the

food (not ingestion of live bacteria and there is no infection site) so there is no

benefit if we heat the food to prevent infection because the toxin not affected by

heat (heat stable enterotoxin), it causes vomiting within 30min-7h, abdominal pain

with or without diarrhea, no fever and resolve with in 24h.

Toxic shock syndrome: it is fatal multi-systemic disease. Toxic shock syndrome

is manifested by an abrupt onset of high fever, vomiting, diarrhea, myalgia, rash,

skin peeling and hypotension with cardiac and renal failure in the most severe

cases. The mortality rate is 1-3% if treated, if not it may reach70%. There is a strong

association between TSS and tampon use in which the primary site of infection is

the vagina and during menstruation the bacteria can grow on tampon and

accumulate to a dangerous level if not changed. The disease is caused by toxin

released by the bacteria. It often occurs within 5 days after the onset of menses in

young women who use tampons, but it also occurs in children or in men with

staphylococcal wound infections.