RCSI Skin & Soft Tissue Infections Past Paper - 2024 PDF

Summary

This document is a past paper examining skin and soft tissue infections, from the Royal College of Surgeons in Ireland (RCSI), taken on 10th November 2024. It covers the causes, presentations, and management of various skin infections.

Full Transcript

Leading the world
to better health
 Skin &
Soft Tissue
Infections
 RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in
Éirinn

SESSION ID: BMFML4

Skin & Soft Tissue Infections

Class: Year 1

Course: Undergraduate Medicine

Lecturer: Dr Muqtadir Malik

Date: 10th November 2024
LEARNING OUTCOMES
AT THE END OF THIS LECTURE YOU SHOULD BE
ABLE TO….
1. Describe the causes of skin & soft tissue infections
(bacterial / viral / fungal / parasitic aetiology)
2. Recognise the clinical presentations of skin and soft tissue
infections
3. Choose the most appropriate specimens for the diagnosis
of skin and soft tissue infections
4. Identify which skin and soft tissue infections are life
threatening and require urgent attention
5. Choose the most appropriate antimicrobials to treat
patients with skin and soft tissue infections
 WHAT LIES ON OUR SKIN?
Resident flora
– e.g. Staph. epidermidis
(>90% of skin flora)
– Others
Transient flora
– e.g. Staph. aureus, gut flora
– Colonisation vs. infection
May vary by site, e.g. hand
versus groin
 LIFE-THREATENING BACTERIAL
SKIN & SOFT TISSUE INFECTIONS

1. Cellulitis
– Most cases are mild and may even be managed
with oral antibiotics from home
– Has potential to lead to severe sepsis if not
treated appropriately
2. Necrotising fasciitis
3. Gas gangrene
 1. CELLULITIS
Acute infection of skin and
subcutaneous tissues
Precipitant is often a break in the
skin
Pathogens:
– Staphylococcus aureus
– Streptococcus pyogenes (Group
A beta-haemolytic streptococci)
– Less commonly Group C or G
beta-haemolytic streptococci
 CELLULITIS
Clinical features: Risk factors:
Erythema, swelling, pain, 1. Previous cellulitis
hot to touch 2. Diabetes mellitus
Often well-demarcated 3. Obesity
May be evidence of 4. Peripheral vascular
precipitating skin break disease
– although most often not 5. Lymphoedema
Patient may be 6. Skin breaks:
– Leg ulcers
systemically unwell
– i.e. febrile, tachycardic – IV drug use
– Trauma
– Insect bites
 CELLULITIS - MANAGEMENT
Blood cultures, skin swab (if indicated)
Mark boundaries of cellulitis
IV antibiotics (or PO in less severe
cases):
– Start smart (Empiric) - flucloxacillin (covers
Staph. aureus & Strep. pyogenes) but
consider MRSA risk factors
– Then focus (Directed) – based on culture &
susceptibilities, e.g. change to benzylpenicillin
if S. pyogenes confirmed)
Manage any underlying cause
 2. NECROTISING FASCIITIS
Severe destructive bacterial Source Unknown
infection of skin,
subcutaneous & peri-
muscular fat
– with necrotic liquefaction of
fatty tissue
Precipitants: minor trauma,
stab wounds, surgery
Pathogens:
– Type 1: Polymicrobial
– Type 2: Group A beta-
haemolytic streptococci (flesh-
eating bug)
– (Type 3: Gas gangrene)
 NECROTISING FASCIITIS
Clinical features:
SEVERE infection, rapidly
progressive
Pain out of proportion to clinical
appearance
– skin can initially look normal
Shiny skin / blisters
Skin colour changes as
deprived of blood supply due to
necrosis
Patient is systemically very
unwell
HIGH mortality (20 - 47%)
 NECROTISING FASCIITIS
Source Unknown
Management
Prompt diagnosis
Urgent surgical assessment & debridement
of dead tissue
– Send tissue for culture & susceptibility
– N.B. fresh, not in formalin
Blood cultures
Antibiotics
– Discuss with clinical microbiology/ID
– Start smart: Broad-spectrum empiric therapy e.g.
vancomycin + piperacillin-tazobactam+ clindamycin
– Then focus: If group A strep, benzylpenicillin +
clindamycin (suppresses toxin production)
Supportive management in ICU
 FOURNIER’S GANGRENE
A form of necrotising fasciitis
occurring in the perineum
Full thickness necrosis of
perineal skin
May involve scrotum, penis &
abdominal wall
Severe & disfiguring

Pathogens: Usually polymicrobial,
including anaerobes
Management
Extensive debridement vital
Broad-spectrum antibiotics
Source Unknown
 3. GAS GANGRENE
(“CLOSTRIDIAL MYONECROSIS”)
Necrotising myositis Source Unknown

Pathogens: toxin-producing
Clostridium spp.
– Clostridium perfringens
– C. septicum
Precipitated by:
– Direct inoculation of wound (trauma or
surgery)
– Haematogenous – C. septicum from
GIT if colon cancer
 GAS GANGRENE
Clinical Features
– Acute onset of severe pain
– Devitalisation of limb, mottled skin
– Fluid or gas-filled blisters on skin
CT showing gas gangrene
– Systemically unwell (Air in thigh as well as in
femoral vein)
– Foul odour, crepitus

Diagnosis
– CT/ X-ray: Gas in tissues
– Wound swab/ blister fluid/tissue for
culture
– Blood cultures
GAS GANGRENE
Treatment

Surgical debridement
Antibiotic therapy
– Broad-spectrum empirically
– Change to benzylpenicillin
when Clostridia confirmed
Supportive care in ICU
Hyperbaric oxygen
 CLINICAL CASE 1
60yo man presents to ED
Scraped his lower leg on
a fence 3 days ago
Temp 38.2, otherwise well
BP 120/70, HR 90 bpm
DESCRIBE THE BELOW IMAGE
WHICH ONE OF THE FOLLOWING
IS THE MOST LIKELY CAUSE?
1. Anaerobic streptococci
2. Staphylococcus aureus
3. Beta-haemolytic
streptococci Group D
4. Clostridium perfringens
5. Staphylococcus
saprophyticus
WHICH ONE OF THE FOLLOWING
IS THE MOST APPROPRIATE TREATMENT?

1. Ciprofloxacin
2. Co-amoxiclav
3. Flucloxacillin
4. Piperacillin-
tazobactam
5. Vancomycin
HOW WOULD YOU MONITOR THIS
PATIENT’S RESPONSE TO TREATMENT?
CLINICAL CASE 1
How do you assess spread of cellulitis?

1. Ask the patient about symptoms
2. Daily white cell count & CRP
3. Mark the edges & observe
4. Monitor temperature & level of pain
5. Ultrasound of the affected area (as needed)
6. Mark the edges & observe
WHAT WOULD THE POTENTIAL DIAGNOSIS
BE IF THIS WAS THE CLINICAL
PRESENTATION?
1. Cellulitis
2. Acute ischaemic limb
3. Folliculitis
4. Necrotising fasciitis
5. Gas gangrene
 LESS SERIOUS BACTERIAL SKIN &
SOFT TISSUE INFECTIONS
1. Impetigo 7. Scalded skin syndrome
2. Folliculitis (refer to Staphylococci lecture)

3. Furuncules 8. Acne
4. Carbuncles 9. Bites
5. Abscesses 10.Diabetic foot infection
6. Erysipelas 11.Surgical site infection

Unlikely to be life-threatening, but 10 & 11 can
progress to severe sepsis
 IMPETIGO
Infection confined to superficial skin layers
HIGHLY infectious / Outbreaks in creches
Pathogens
Group A, C or G streptococci
Staphylococcus aureus
Clinical
Usually exposed sites, e.g., face, arms, legs
Vesicles initially  golden crusted lesions
Diagnosis
Clinical
Culture of exudate
Treatment
Flucloxacillin
Folliculitis Furuncles
Deep inflammatory nodule,
usually develops from preceding
folliculitis
Axillae, buttocks (skin with
hair follicles)
Superficial infection of hair Treatment
follicles & apocrine structures Spontaneous or surgical
Pathogens drainage
Mostly S. aureus
Clinical / Diagnosis
Small pruritic papules with
central pustule
Treatment
Often not required
Flucloxacillin if persistent/
extensive
 CARBUNCLE & ABSCESSES
Carbuncles: Abscesses:
Larger, deeper than a An abscess is a localised
furuncle collection of pus
Extending into subcutaneous Pathogens: S. aureus /
fat polymicrobial
Nape of neck, back or thighs Treatment:
Patient may be systemically – Incision & drainage
unwell – Usually NO role for
antibiotics
 ERYSIPELAS
Superficial form of cellulitis with
lymphatic involvement
Epidemiology: Children, elderly,
diabetics
Pathogens: Mostly group A strep
Clinical/Diagnosis:
– Painful erythematous lesion with elevated,
well-defined border
– Face or legs
– May be febrile/ unwell
Treatment: Involved skin is raised and
– IV benzylpenicillin differentiated from
uninvolved skin.
– PO switch to oral amoxicillin
– Or oral antibiotics from outset
 ACNE
Multi-factorial skin disorder
1. Excess sebaceous secretion
by follicles
2. Blocked sebaceous gland
leads to pustules
Pathogens:
Secondary infection with
Cutibacterium spp.
Source:
– Inflammation & scarring https://dermnetnz.org/top
ics/acne
Treatment:
Broad-spectrum antibiotics e.g.
doxycycline
TRAUMATIC WOUNDS - CLOSTRIDIUM
TETANI
Tetanus is a life-threatening illness
manifested by muscle rigidity &
spasms caused by the spore
forming organism Cl. tetani
Image: medical-labs.net
The symptoms and signs are
caused by a neurotoxin
(tetanospasmin) produced by the
vegetative form of Cl. tetani

Tetanus is a vaccine preventable
disease

Image: Merck Manuals
Professional edition
TETANUS, EPIDEMIOLOGY &
PATHOGENESIS

Incidence varies worldwide
Wealthier countries = decreasing due to
immunisation
Cl. tetani spores survive in environmental
Spores are introduced via skin trauma,
often a puncture wound, burns, trivial
wounds, the umbilical stump in the
newborn infant – spores may contaminate
heroin
Person-to-person transmission does not
occur
 PATHOGENESIS OF TETANUS
Spores found in soil, intestines & faeces of
animals; humans may harbour organism in GIT
Spores may contaminate heroin
Spores in wound germinate when there is a
localized anaerobic environment (necrotic tissue)
A tiny area with relatively anaerobic conditions is
required for Cl. tetani spores to germinate
Toxin blocks transmission at inhibitory synapse
resulting in ‘inhibition of inhibitory neurons’

→ sustained muscle contraction/spasms
 PRESENTATION
Muscle Spasms
– May be frequent, last minutes, & persist for 3-4 weeks
– Muscles of the thorax, abdomen and
extremities = flexion of arms,
extension of legs, arching of back
– Trismus or “lockjaw”
– “risus sardonicus”(sardonic
appearance) produced by increased
tone of orbicularis oris
Complications
– Laryngospasm
– Autonomic nervous system dysfunction (labile BP,
arrhythmias, sweating)
The mortality rate is ≥ 60% in severe cases
 TETANUS PREVENTION
WOUND TOILET & IMMUNISATION
Prevented by immunisation with toxoid vaccines
Recovery from tetanus does confer natural
immunity
The majority of cases are birth-associated among
newborn babies & mothers not vaccinated
Toxoid vaccine is part of childhood
vaccination programme in many countries:
DTP (diphtheria-tetanus-pertussis) vaccine
– Clinical efficacy almost 100% but immunity
wanes & after 10 years may not provide
protection
 ANIMAL BITES
Pathogens
Animal mouth flora
Staphs / Streps
Diagnosis
Send swab (or tissue if
debriding) for culture &
susceptibility
Management
Tetanus prophylaxis
Usually co-amoxiclav
– Discuss with Micro if deep infection
/ osteomyelitis or not resolving
 HUMAN BITES
Pathogens
Mouth flora
– e.g. strep, anaerobes

Management
Tetanus booster
Antibiotics (usually co-amoxiclav)
Consider blood-borne viruses
Check for deep infection:
Is there osteomyelitis?
 DIABETIC FOOT INFECTIONS
Limb-threatening versus non-limb-threatening

Non-limb-threatening Severe & limb-
Cellulitis, no vascular threatening
compromise, no abscess Vascular
Pathogens: compromise /
Staph. aureus, β-haemolytic abscess /
strep osteomyelitis /
Treatment: gangrene
Flucloxacillin Need radiological
– Cellulitis: 5-7 days imaging to rule out
– Superficial ulcer: 5 days osteomyelitis if this
– Deep ulcer: flucloxacillin +
is suspected
metronidazole - 7 days
 MANAGEMENT OF SEVERE
DIABETIC FOOT INFECTIONS
Involve MDT: Microbiology/ID antibiotic
Endocrinology i.e. choice
glycaemic control Podiatrist
Diabetes nurse ?OPAT team if osteomyelitis
specialist
Vascular surgeons
re drainage/
debridement
Radiology: is there
osteomyelitis?
 ANTIBIOTIC TREATMENT OF SEVERE
DIABETIC FOOT INFECTIONS
Start smart: Empiric broad-spectrum
– Co-amoxiclav
– Piperacillin – tazobactam (If evidence of sepsis, previous inpatient
admission for diabetic foot infection, previous growth of Pseudomonas
aeruginosa from foot specimen)
Broad spectrum aims to cover S. aureus & streptococci /
Gram-negatives / anaerobes)
– Often ulcers colonised with multiple organisms so swabs may not be
helpful
– Tissue or bone specimens from debridement or bone biopsy are the
specimens of choice to identify the pathogen(s)
Treatment duration: approximately 10-14 days if just soft
tissue / 6-12 weeks if bone involvement
More in year 2 Endocrine module
SURGICAL SITE INFECTIONS (SSI)
Very common healthcare-associated infection
Risk Factors
– Type of procedure
– Patient factors

Surgery type:
– Clean (no breach of tract e.g. excision of a skin lump)
– Clean- contaminated (breach of GI/ GU/ Respiratory
etc. tract)
– Contaminated (operating in a contaminated field e.g.
post GI perforation)
 CLASSIFICATION OF SSI
Superficial
Deep/Incisional
Organ/Space

Pathogens:
Staphylococcus aureus (most common irrespective of type of surgery)
Beta-haemolytic streptococci
Gram-negative bacilli (mostly only seen post clean-contaminated or
contaminated surgery)
Anaerobes (post clean-contaminated or contaminated surgery)
Coagulase-negative staphylococci (if prosthetic material)
 PREVENTION OF SSI
Pre-operatively
– optimise risk factors such as diabetes mellitus
– MRSA decolonisation before some procedures if carriage
Intra-operatively:
– No shaving, skin asepsis, choice/timing of antibiotic
prophylaxis
– surgical technique, theatre conditions, short duration
procedure
– Glycaemic control, oxygenation
Post-operatively:
– Removal of drains, asepsis when reviewing wound
 CLINICAL CASE 2
A 57yo male develops erythema &
tenderness around his wound 4 days after
bowel surgery for cancer
A superficial swab was taken on the ward
SUPERFICIAL SWAB GROWS
STAPHYLOCOCCUS EPIDERMIDIS – IS THIS
SIGNIFICANT ? WHY?
 CLINICAL CASE 2
Patient was subsequently taken to theatre
for exploratory laparotomy which reveals
an intra-abdominal collection of pus &
samples are taken.
WHAT CATEGORY OF SURGICAL SITE
INFECTION (SSI) IS THIS?
1. Deep
2. Incisional
3. Organ space
4. Superficial
5. Trivial
WHAT ORGANISMS ARE MOST LIKELY
TO BE THE CAUSE?
1. Campylobacter spp &
Shigella sonnei
2. Candida albicans &
Tricophyton spp.
3. Clostridium septicum &
Haemophilus spp.
4. E. coli & anaerobes
5. Staphylococcus epidermidis
& Staph. saprophyticus
CLINICAL CASE 3
A 64yo gentleman with a diagnosis of Type 2
Diabetes presents to the Diabetes clinic for a
routine visit
Foot exam shows the following:
DESCRIBE THE IMAGE BELOW
CLINICAL CASE 3
As part of the clinic visit the patient has a
superficial swab taken of the ulcer by the
doctor in clinic

Swab results shows mixed growth of:
– Staphylococcal epidermidis
– Staphylococcal capitis
DOES THIS PATIENT REQUIRE
ANTIBIOTICS. WHY / WHY NOT?
WOUND COLONIZATION
Superficial swabs taken from diabetic ulcers likely
represent colonising flora if wound has not been
appropriately cleaned and debrided
If a swab is being sent from a diabetic ulcer should
be done so after cleaning and debridement of any
dead skin / tissue and taken from base of ulcer
Avoid debridement if foot ischaemic
CLINICAL CASE 3

Patient presents two weeks later to the
emergency department with fevers / chills / and
new pain and erythema around foot ulcer site
The ulcer is now very sloughy-looking and
appears to have deepened
The patient requires admission for sepsis
secondary to infected deep diabetic foot ulcer
WHAT IS THE MOST APPROPRIATE
ANTIMICROBIAL REGIME TO COMMENCE
PATIENT ON?
A.Flucloxacillin
B.Piperacillin –
tazobactam
C.Vancomycin
D.Ciprofloxacin
E.Benzylpenicillin
 VIRAL SKIN INFECTIONS
Warts
Cold sores (Covered in ‘Herpes virus’ lecture in
FFP2)
Varicella Zoster virus (covered in Herpes virus
lecture in FFP2)
Mpox – Brief overview (Covered in more detail in
STI teaching in REGU)
Hand, foot & mouth disease (Covered in ‘GI Hep
module  GI viruses lecture)
 HUMAN PAPILLOMA VIRUS (HPV)
Genital warts - STI
Common warts
– Children
– Infection by direct contact
– Palms, wrists, dorsum of
hand
– DNA virus infects
epidermal cells - Treatment
hypertrophy & multiply Childhood: self-resolution
leading to keratinised Excision, salicylate &
nodular papilloma lactic acid ointment
Freezing, cryoprobe or
liquid nitrogen
MPOX
Enveloped DS DNA virus, genus Orthopoxvirus,
Poxviridae family
Epidemiology
o Identified as cause of human disease in 1970s, sporadic cases
in central and West Africa
o 2022 WHO reports endemic in multiple African countries
o Global outbreak/PHEIC 2022 (Clade IIb)
o Public Health Emergency of International Concern (PHEIC)
declared by WHO 2024 (Clade I)
Transmission
o Human to human transmission
 Direct contact with lesions (Skin/genital/mucous membranes)
 Through the air
 Indirect contact (Fomites)
 Percutaneous
 Vertical
MPOX – CLINICAL FEATURES
Incubation period 5-21 days
Rash
o Persists for 2-3 weeks
o Macules papules vesicles pseudopustules
o Well circumscribed, umbilicated
o May be painful and then itchy once crusted
o Distribution has differed in outbreaks v infections in endemic
areas
Systemic symptoms
o Fever, headache, myalgia, lymphadenopathy

Timing of onset of systemic symptoms and rash has
differed during some outbreaks when compared with
clinical course in countries with endemic infection
Image: UKHSA https://www.gov.uk/guidance/monkeypox#clinical-
features
FUNGAL SKIN INFECTIONS
Candida
Ringworm
Pityriasis versicolor

Refer back to your lecture: Introduction to fungi and fungal
infections for detail
 PARASITIC SKIN
INFESTATIONS
Scabies
Lice
 SCABIES
Scabies mite (Sarcoptes scabiei)
Mite burrows into epidermis
Clinical features
– Characteristic burrows in finger webs
– Itch ++ (worse at night)
– ‘Norwegian scabies’: diffuse crusted lesions (same parasite but in
immunocompromised patients)
Highly infectious Outbreaks: Household, boarding school
Treatment
– Topical permethrin- messy, need to leave on overnight
– Wash clothes/ sheets etc. as well
 LICE (PEDICULOSIS)
Headlice (Pediculus capitis)
– Common in children, outbreaks in
schools, spread by direct contact
– ‘Nits’ (eggs) attached to bases of
hairs
– Itch / papular lesions
– Treatment: Malathion or 1%
permethrin. Fine combing to remove
nits. Bathing/ washing clothes
Body lice (Pediculus humanus)
Pubic lice (Phthirus pubis)
 CLINICAL CASE 4
A 35yo nurse, who works in a nursing home,
develops lesions on her fingers which are very
itchy
She has no underlying skin or medical
condition.
WHAT ELSE WOULD YOU LIKE TO KNOW?
WHAT IS THE MOST LIKELY DIAGNOSIS?

1. Abscess
2. Acne
3. Candidiasis
4. Erysipelas
5. Scabies
IN ADDITION TO SPECIFIC TREATMENT,
WHAT ELSE SHOULD SHE DO?
1. Apply topical steroid
cream
2. Change bed clothes
3. Discontinue regular
exercise
4. Eat natural yogurt
twice daily
5. Take analgesia
 SUMMARY: SKIN AND SOFT TISSUE
INFECTIONS
Bacterial Viral Fungal Parasites
Necrotising Herpes Candida (Infestation)
fasciitis Coxsackie Tinea Lice
Gas gangrene Virus Pityriasis Scabies
Cellulitis HPV versicolor
Abscess/Folliculitis
Erysipelas
Impetigo
Scalded skin
syndrome
Animal bites
Diabetic foot
 SUMMARY
Skin & soft tissue infections are common but most
are relatively minor
Bacterial causes are often found on the skin, e.g.
Staph. aureus or the respiratory tract, e.g. Group A
streptococci
Common, usually minor infections include impetigo,
carbuncles & SSI (healthcare-associated)
Warts, tinea & scabies are relatively common viral,
fungal & parasitic infections, respectively, requiring
specific treatment
YEAR 1 STUDENTS IN NEED OF ASSISTANCE
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The Body: Movement & Function –
CASE SLIDE
The details from our class today relate to
CBL Case 2