The document discusses various types of skin and soft tissue infections including impetigo, abscesses, cellulitis, and erysipelas. It describes the typical causative bacteria, clinical presentation, risk factors, diagnosis, and treatment for each type of infection. Key points covered include how Staphylococcus aureus and Streptococcus pyogenes are the most common causes. Proper diagnosis involves considering patient history and symptoms, and treatment often involves antibiotics as well as surgical drainage or debridement for more severe cases such as necrotizing fasciitis.
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2. Objectives
2
1. Describe the anatomical structure of skin and soft tissues.
2. Differentiate the various types of skin and soft tissue infections and there clinical
presentation.
3. Name bacteria commonly involved in skin and soft tissue infections
4. Describe the pathogenesis of various types of skin and soft tissue infections
5. Recognize specimens that are acceptable and unacceptable for different types of skin
and soft tissue infections
6. Describe the microscopic and colony morphology and the results of differentiating
bacteria isolates in addition to other non-microbiological investigation
7. Discuss antimicrobial susceptibility testing of anaerobes including methods and
antimicrobial agents to be tested.
8. Describe the major approaches to treat of skin and soft tissue infections
either medical or surgical.
4. Introduction
Common
Can be mild to moderate or sever muscle or bone
and lungs or heart valves .
Staphylococcus aureus is the most cause
Emerging antibiotic resistance among
Staphylococcus aureus (methicillin resistance)
Streptococcus pyogenes (erythromycin
resistance)
4
5. key to developing an adequate differential
diagnosis requires
History
patient’s immune status, the geographical locale, travel
history, recent trauma or surgery, previous antimicrobial
therapy, lifestyle, and animal exposure or bites
Physical examination
severity of infection
Investigation
CBCs, Chemistry
Swab, biopsy or aspiration
Radiographic procedures
Level of infection and the presence of gas or abscess.
Surgical exploration or debridement
Diagnostic and therapeutic
5
6. IMPETIGO-( Pyoderma)
A common skin infection
Children 2–5 Yr in tropical or subtropical regions
Nearly always caused by β-hemolytic streptococci
and/or S.aureusand / or Group A streptoccus
Nonbullous (Streptococcus) or Bullous (S. aureus )
(Consists of discrete purulent lesions)
Exposed areas of the body( face and extremities)
Skin colonization- Inoculation by abrasions, minor
trauma, or insect bites
Systemic symptoms are usually absent.
Poststreptococcal glomerulonephritis.
Cefazolin, Cloxacillin , or erythromycin
Mupirocin
6
7. ABSCESSES, CELLULITIS, AND ERYSIPELA
Cutaneous abscesses.
Collections of pus within the dermis and deeper
skin tissues.
Painful, tender, and fluctuant
Typically caused by S. aureus
Do Gram stain, culture
Multiple lesions, cutaneous gangrene, severely
impaired host defenses, extensive surrounding
cellulitis or high fever.
and systemic antibiotics
Incision and evacuation of the pus
7
8. Furuncles and carbuncles.
Furuncles (or “boils”) are infections of the hair
follicle (folliculitis ), usually caused by S. aureus, in
which suppuration extends through the dermis into
the subcutaneous tissue
Carbuncle- extension to involve several adjacent
follicles with coalescent inflammatory mass - back of
the neck especially in diabetics
Larger furuncles and all carbuncles require incision
and drainage.
Systemic antibiotics are usually unnecessary
8
9. Outbreaks of furunculosis caused by MSSA, and
MRSA,
9
Families-prisons-sports teams
Inadequate personal hygiene
Repeated attacks of furunculosis
Presence of S. aureus in the anterior nare- 20-
40%
Mupirocin ointment- eradicate staphylococcal
carriage nasal colonization
10. Erysipelas and Cellulitis.
Diffuse spreading skin infections
Most of the infections arise from streptococci, often group A,
but also from other groups, such as B, C, or G.
Erysipelas
Affects the upper dermis (raised-clear line of demarcation)
Red, tender, painful plaque
Infants, young children-
B-hemolytic streptococci ( group A or S. pyogenes.)
Penicillin-IV or oral.
10
11. Cellulitis
Acute spreading infection involves the deeper dermis and
subcutaneous tissues.
β-hemolytic streptococci, Group A streptococci, and group B
streptococci-diabetics
S. aureus : commonly causes cellulitis- penetrating trauma.
Haemophilus influenzae periorbital cellulitis in children
Risk factors ; Obesity, venous insufficiency, lymphatic
obstruction (operations), preexisting skin infections- ulceration,
or eczema,
CA-MRSA
Carry Panton-Valentine leukocidin gene
More sensitive to antibiotics
Can lead to sever skin and soft tissue infection or septic shock
11
12. Diagnosis and Treatment
Clinical diagnosis Symptoms and Signs
High WBCs, blood culture rarely needed (Celullulitis)
Aspiration and biopsy , diabetes mellitus, malignancy, animal
bites, neutropenia (Pseudomonas aeruginosa )
immunodeficiency, obesity and renal failure
progression to severe infection(increased in size with
systemic manifestation. (fever, leukocytosis)
Treatment: cover streptococcus and staphylococcus
Penicillin, cloxacillin,
cefazolin(cephalexin),clindamycin
Vancomycin or linazolid in case of MRSA
Clindamycin, TMP-SMZ for CaMRSA.
12
14. Introduction
14
rare deep skin and subcutaneous tissues infection
It can be monomicrobial or (polymicrobial) infection
Most common in the arms, legs, and abdominal wall and is fatal in 30%-
40% of cases.
Fournier's gangrene (testicular), Necrotizing cellulitis
Group A streptococcus (Streptococcus pyogenes)
Staphylococcus aureus or CA-MRSA
Clostridium perfringens (gas in tissues)
Bacteroides fragilis
Vibrio vulnificus (liver function)
Gram-negative bacteria (synergy).
E. coli, Klebsiella, Pseudomonas
Fungi
16. Pathophysiology
16
destruction of skin and muscle by releasing
toxins
Streptococcal pyogenic exotoxins
Superantigen
Non-specific activation of T-cells
Overproduction of cytokines
Severe systemic illness (Toxic shock syndrome)
17. Signs and symptoms
17
Rapid progression of sever pain with fever , chills
(typical)
Swelling , redness, hotness, blister, gas formation,
gangrene and necrosis
Blisters with subsequent necrosis , necrotic
eschars
Diarrhea and vomiting (very ill)
Shock organ failure
Mortality as high as 73 % if untreated
19. Diagnosis
19
A delay in diagnosis is associated
with a grave prognosis and
increased mortality
Clinical-high index of suspicion
Blood tests
CBC-WBC , differential , ESR
BUN (blood urea nitrogen)
Surgery debridement- amputation
Radiographic studies
X-rays : subcutaneous gases
Doppler CT or MRI
Microbiology
Culture &Gram's stain
( blood, tissue, pus aspirate)
Susceptibility tests
20. Treatment
20
If clinically suspected patient needs to be hospitalized OR
require admission to ICU
Start intravenous antibiotics immediately
Antibiotic selection based on bacteria suspected
broad spectrum antibiotic combinations against
methicillin-resistant Staphylococcus aureus (MRSA)
anaerobic bacteria
Gram-negative and gram-positive bacilli
Surgeon consultation
Extensive Debridement of necrotic tissue and collection of tissue
samples
Can reduce morbidity and mortality
22. Pyomyositis
Acute bacterial infection of skeletal
muscle, usually caused by Staph.
aureus
No predisposing penetrating wound,
vascular insufficiency, or contiguous
infection
Most cases occur in the tropics
60% of cases outside of tropics have
predisposing RF: DM, EtOH liver
disease, steroid rx, HIV, hematologic
malignancy
23. Pyomyositis
Hx of blunt trauma or vigorous
exercise (50%), then period of
swelling without pain. 10-21 days
later, pain, tenderness, swelling and
fever, Pus can be aspirated from
muscle. 3rd stage: sepsis, later
metastatic abscesses if untreated
Dx: X-ray, US, MRI or CT
Rx: surgical drainage +abx
24. Other Specific Skin Infections
Epidemiology Common Pathgen(s) Therapy
Cat/Dog Bites Pasturella multocida;
Capnocytophaga
Amox/clav (Doxy; FQ or SXT +
Clinda)
Human bites Mixed flora
eikenella corrodens
Hand Surgeon; ATB as above
Fresh water injury Aeromonas FQ; Broad Spectrum Beta-
lactam
Salt water injury
(warm)
Vibrio vulnificus FQ; Ceftazidime
Thorn , Moss sporothrix schenckii Potassium iodine
Meat-packing Erysipelothrix Penicillin
Cotton sorters Anthrax Penicillin
Cat scratch Bartonella Azithromycin
25. 25
TAKE HOME POINTS
Most commonly caused by Staphylococcus aureus and
Streptococcus pyogenes
Risk factors for developing SSTIs include breakdown of the
epidermis, surgical procedures ,crowding, co-morbidities,
venous stasis, lymph edema
26. 26
Most SSTIs can be managed on an outpatient basis
patients with evidence of rapidly progressive infection,
high fevers, or other signs of systemic inflammatory
response should be monitored in the hospital setting.
Superficial SSTIs typically do not require systemic
antibiotic treatment and can be managed with topical
antibiotic agents or incision and drainage.
• Systemic antibiotic agents that provide coverage for
both Staphylococcus aureus and Streptococcus
pyogenes are most commonly used as empiric therapy
for both uncomplicated and complicated deeper
infections.
TAKE HOME POINTS
Editor's Notes
Necrotizing fasciitis and clostridial myonecrosis due to infection with Clostridium septicum. The patient required multiple extensive debridements down to bone (see image), but did not survive the severe infection with severe septic shock. Blood and wound cultures were positive for the organism. At autopsy, an occult colonic malignancy was also noted--presumably the source for her infection.