MSK L9 Skin and Wound Infections

Question 1

Soft tissue infection common organisms:

Answer 1

Staphyococcus aureus:

Streptococcus pyogenes

Question 2

Staphyococcus aureus:

Answer 2

1. Gram positive found in clusters/tetrads
2. A very versatile pathogen
3. Colonises nostrils of many healthy individuals (Groin and axilla also) - commensual
4. Readily acquires antibiotic resistance (MRSA)

Question 3

Streptococcus pyogenes

Answer 3

1. Group A
2. Gram positive (chains)
3. Agar → haemolytic reaction (beta haemolysis)
4. Common cause of throat infections, also causes skin infection and rapidly progressing invasive infection
   a. Pharyngitis
   b. Quinsy
5. Invariably penicillin sensitive

Question 4

Staph. Aureus and Strep.pyogens have many similar virulence factors:

Answer 4

Binding
Invasion
Toxin production

Question 5

Staph. Aurues

capsules

Answer 5

11 serotypes (serotype 5,8 most common)

Question 6

Staph. Aurues surface

Answer 6

➢ Protein A binds IgG (Fc region)
➢ Fibrinogen binding protein (clumping factor)
➢ Fibronectin binding protein
➢ Collagen binding protein

Question 7

Strep. Pyogenes capsule

Answer 7

Hyaluronic acid (capsule formed from preventing phagocytosis)

Question 8

Strep. Pyogenes surface

Answer 8

➢ M protein and M-like proteins bind: IgG and IgA (Fc region), fibrinogen and fibronectin;
➢ Protein F1, F2 & others bind fibronectin;
➢ Epa binds collagen

Question 9

Stap.aureus tissue degrading organisms

Answer 9

➢	DNAase
➢	Staphylokinase
➢	Hyaluronidase
➢	Lipase
➢	Coagulase (haemolysins

Question 10

Strep. Pyogenes tissue degrading organisms

Answer 10

➢	DNAases A-D
➢	Streptokinase
➢	Hyaluronidase
➢	Amylase
➢	Esterase
➢	NADase
➢	Proteinase (Haemolysins

Question 11

Staph.aureus Both produce toxins that damage host cells

Answer 11

a-, Beta-, y- Delta- toxins (haemolysins)

Leucocidins

Question 12

Staph.aureus Both produce ‘superantigens’ (pyrogenic) – induce host immune response

Answer 12

Enterotoxins (7 types)

Toxis shock syndrome toxin

Question 13

Staph.aureus Other toxins

Answer 13

Epidermolytic toxin (exfoliatin)

Question 14

Strep. Pyogenes Both produce toxins that damage host cells

Answer 14

Streptolysin O (oxygen unstable) and S (oxygen stable) → Rheumatic fever

Question 15

Strep. Pyogenes Both produce ‘superantigens’ (pyrogenic) – induce host immune response

Answer 15

Streptpcoccal pyrogenic (erythrogenic) exotoxins (SPEs)

Question 16

Impetigo: Description

Answer 16

Pustular vesicles developing into crusting plaques non scarring

Question 17

Impetigo: Caused by

Answer 17

Streptococcus pyogenes or staph. Aureus

Question 18

Impetigo: Bullous impetigo caused by

Answer 18

Staph. Aureus epidermolytic toxin

Question 19

Impetigo: Bullous impetigo

Answer 19

Causes skin separation at stratum granulosum layer

Question 20

Dermatophyte infections: Description

Answer 20

Fungal infections

Question 21

Dermatophyte infections: Examples

Answer 21

Athletes foot

Ring worm

Question 22

Dermatophyte infections: Cause

Answer 22

Caused by colosation of keratinised structures (stratum corneum, hair , nails) by keratinase – producing fungi (Epidermophyton floccosum, Trichophyton spp & Microsporum spp.

Question 23

Hair Follicle based infections: Predominant cause

Answer 23

Staph aurues

Question 24

Hair Follicle based infections: Folliculitis sometimes due to

Answer 24

Garm ive rods

Question 25

Hair Follicle based infections: Acne vulgaris may be caused or exacerbated by

Answer 25

Propionibacterium acnes

Question 26

Hair Follicle based infections: Carbuncle

Answer 26

Necrotising infection of skin

Question 27

Hair Follicle based infections: Furunculosis

Answer 27

Boils

Question 28

Leprosy (Hansen’s disease) Epi

Answer 28

10-20 million people affect in tropics

Question 29

Leprosy (Hansen’s disease) Caused by

Answer 29

Myocobacterium leprae confined to man (nonculturable)

Question 30

Leprosy (Hansen’s disease) Restricted mainly to

Answer 30

Skin, peripheral nerves and nasal epithelium by poor growth at 37C (opt. 30C)

Question 31

Leprosy (Hansen’s disease) Incubation period

Answer 31

6 months. Sometimes decades

Question 32

Leprosy (Hansen’s disease) Treatment

Answer 32

Dapsone
Rifampicin
Clofazamine (6-12 months)

Question 33

Leprosy (Hansen’s disease) Pathology of Leprosy

Answer 33

M. leprae is an obligate intracellular pathogen

Question 34

Leprosy (Hansen’s disease) Spectrum of disease from:

Answer 34

1. Tuberculoid – few well-demarcated lesions, few bacilli seen, granulomatous picture → non infectious?
2. Lepromatous – widely disseminated diffuse lesions containing many bacilli; infections

Question 35

Leprosy (Hansen’s disease)Tuberculoid leprosy response

Answer 35

Cell-mediated immune response (inc. delayed-type hypersensitivity)

Question 36

Leprosy (Hansen’s disease) Lepromatuos leprosy response

Answer 36

B-cell activation
Eosinophil activation
Acute phase response
Less inflammation

Question 37

Leprosy (Hansen’s disease) Tuberculoid presentation

Answer 37

Well defined lesions (small numbers)

Question 38

Lepromatous leprosy presentation

Answer 38

Extensive ill (defined lesions (extensive numbers)

Question 39

Secondary Infections of Skin: Infected eczema

Answer 39

Usually staphylococcus aureus, occasionally Streptococcus pyogenes

Question 40

Secondary Infections of Skin: Leg ulcers, pressure sores, burns

Answer 40

Many species isolated including:

1. Staphylococcus aurues
2. Streptococcus pyogenes
3. Pseudoomonas aeruginosa
4. Anaerobic bacteria

Question 41

Infection of wounds:

Answer 41

1. Clean surgical wound – few bacteria
2. Chronic wound contaminated with viable organisms
   a. Wound infection local symptoms delayed healing
   i. Sepsis (systemic effects due to spread of organisms/toxins or
   ii. Removal of bacteria by host defences etc.

Question 42

Wound infection: factors increasing risk of infection:

Answer 42

1. Presence of foreign material
2. Presence of dead tissue/clots
3. Poor perfusion of wound site
4. Delayed healing
5. Heavy microbial contamination
6. General health of patient

Question 43

Cellulitis: Caused by

Answer 43

Streptococcus pyogenes

Question 44

Cellulitis: Less commonly other causes

Answer 44

Beta-haemolytic streptococci or staphylococcus aureus

Question 45

Cellulitis: Occasionally caused by

Answer 45

Strep. Pneumonia or Haemophilus influenza (pre HIB)

Question 46

Cellulitis: Facial cellulitis

Answer 46

Erysipelas (cheeks) and periorbatalitis

Question 47

Necrotising fasciitis (streptococcal gangrene)

Answer 47

Strep. Pyogenes

Sometimes staph aureus

Question 48

Gas gangrerr(clostridial cellulitis)

Answer 48

Clostridium spp, often mixed cultures

Question 49

Synergistic necrotising fasciits/gangrer

Answer 49

Mixed cultures, aerobic and micro-aerophillic or anaerobic cocci, bacteroids or fusobacterium. Often affect muscle

Question 50

Synergistic necrotising fasciitis/gangre include

Answer 50

Founeir’s gangre

Meleney’s preogressive bacterial synergistic gangre

Question 51

Fournier’s gangrene

Answer 51

Affects perineum and male gentalia

Question 52

Meleney’s progressive bacterial synergistic gangrene

Answer 52

Usually after abdominal surgery, more slowly progressing than other gangrenes.

Question 53

Lethal toxins of Clostridium perfringens: (produces lethal toxins)

Answer 53

Alpha – lecithinase (phospholipase C)
Beta
Epsilon
Iota
Gamma
Delta
Kappa

Question 54

Alpha – lecithinase (phospholipase C)

Answer 54

Causes extensive haemolysis
Plateleta aggregation in blood vessles
Prevents neutrophil infiltration of local tissue

Question 55

Beta

Answer 55

Necrotizing

Question 56

Epsilon

Answer 56

Permease

Question 57

Iota

Answer 57

Dermonnecrotic, ADP ribosylating

Question 58

Gamma

Answer 58

Haemolysin

Question 59

Delta

Answer 59

Haemolysin, cytolysin

Question 60

Kappa

Answer 60

Collagenase, necrotizing

Question 61

Tetanus: Caused

Answer 61

Clostridium tetani

Question 62

Tetanus: Pathology

Answer 62

Bacteria grow in dead, anaerobic tissue sand produce tetanospasmin toxin
Toxin binds to nerve endings; inhibit neurotransmitter release, blocking nerve impulses

Question 63

Tetanus:Muscles spasms

Answer 63

Lock jaw, difficulty swallowing, stiff neck, rigid abdominal muscles

Question 64

Tetanus:Prevention by

Answer 64

Toxoid immunization, treatment with immune globulin (binds free toxin)

Question 65

Bites: Pathology

Answer 65

Local suppuration; cellulitis and lymaphedenaopathy; osteomyelitis and septic arthritis

Question 66

Bites: Human bites

Answer 66

Usually yield mixed oral flora, including anaerobes

Question 67

Animal bites

Answer 67

Similar plus capnocytophaga spp.,Pasteurella multocida

Question 68

Rodents

Answer 68

Can harbour francisella tularensis (tularaemia)

Question 69

bite prevention

Answer 69

Cleaning and debridement, antibiotic prophylaxis (co-amoxiclav)