Microbial Diseases of the Skin and Eyes PDF

Summary

This document is a study of microbial diseases affecting the skin and eyes, covering objectives, etiological agents, diagnoses, and treatment for various conditions. It details different diseases like blepharitis, hordeolum, chalazion, periorbital cellulitis, acute and chronic dacryocystitis, conjunctivitis, ocular lymphogranuloma venereum, trachoma, and more. It also includes sections on the structure and function of the skin and relevant terms for skin conditions like vesicles, bullae, macules, papules, and pustules.

Full Transcript

MICROBIAL DISEASES
OF THE EYES AND SKIN
PHMP 211 (EYES)
OBJECTIVES
 To Identify the different microbial disease affecting
the skin and eyes
 To understand the mechanism of disease

 To identify the standard therapy.
 The Etiological agents that may affect the eys
will vary depending on the area and typ of
tissue affected
 Disease spread may be divided into:
 Eyelids and tissue surrounding the eyes
 Conjunctiva

 Cornea

 Intraocular area
Eyelids and tissue surrounding the eyes
Blepharitis
 Etiological agent:
 Demodex folliculorum (a mite)
 followed by bacterial infection
Staphilococcus
aureus or Staphilococcus epidermidis
 Diagnosis:
 due to an allergic reaction to the mite
which resides in the eyelash or the
eyebrow
 Abscesses may form in and around
the follicles, destroying the follicles,
with the loss of lashes and the
formation of ulcers.
 Treatment:
 Glucocorticoid for the allergic reaction There may be a history of itching and
 Doxycycline or Minocycline ( C/I in scaling of the lid since early
children and pregnant) childhood. The patient describes an
incessant urge to pull on the lashes in
 Azithromycin ( alternative)
an attempt to remove the scales
Hordeolum and Chalazion
 Etiological agents:
 Generally Staphylococcus aureus, but may also be
caused by Pseudomonas
aeruginosa and Proteus sp.
 Diagnosis:
 Obstruction of the orifice of a gland (Meibomian,
Zeis, or Moll) seems to be the primary pathological
event in the formation of hordeolum (Stye)-.
 A red nodule that is quite painful develops and is
surmounted with a yellowish top as the lesion
matures.
 The histopathology is typical of acute suppurative
inflammation.
◼ Chalazion evolve from hordeolum that do not
drain spontaneously or are not incised.
◼ There is usually persistent chronic inflammation,
and granuloma formation may occur as
sebaceous secretions are impounded.
 Treament:
 Erythromycin: for susceptible strains and for
prevention of corneal and conjunctival infections
 Cephalexin: for acute hordoelum
 Doxycycline: may be added if there recurrent lesions
or significant meibomitis
Periorbital cellulitis
 Etiological Agent:
 Staphylococcus aureus ( most
common) S. pneumoniae, H.
influenzae
 Diagnosis:
 Characterized by acute eyelid
erythema and edema
 Also known as periseptal
cellulitis
 Treatment:
 Clindamycin as empirical
therapy
 Doxycycline, cotrimoxazole:
alternative therapy
Acute Dacrocystitis
 Etiological agents:
 S. aureus, S. epidermidis, Streptococcus
pneumoniae
 Diagnosis:
 This is an infection of the lacrimal sac,
almost always secondary to obstruction
of the lacrimal duct.
 occurs when both the upper and lower
ends of the drainage system become
partially or totally obstructed. The major
symptom is pain in the tear sac area.
There are also erythema, edema, a
purulent discharge and epiphora
 Treatment
 Coamoxiclav, Sultamicillin, Levofloxacin
 Tobramycin opthalmic
 Tobramycin plus dexamethasone
ophthalmic
Chronic Dacrocysititis
 Etiological agents:
 Streptococcus pneumoniae
 Hemophilus influenzae
 Candida albicans
 Aspergillus sp.
 Actinomyces sp
 Chronic dacryocystitis is usually caused by a single site of partial or
complete obstruction within the lacrimal sac or within the nasolacrimal duct.
The infection is usually the result, and not the cause, of obstruction
 Obstruction may be due to:
 1. Trauma
 2. Tumors
 3. Foreign bodies
 4. Delayed canalization in neonates
 5. Closure of canal in post menopausal women
Conjunctiva
Pink Eye Conjunctivitis
 Etiological agent:
 Haemophilus
aegypticus and/or Moraxella
lacunata
 Diagnosis:
 The only symptoms are
conjunctivitis, either chronic or
acute, and severe inflammation
of the cornea. Diagnosis is via
isolation of the organism ( a
Gam-negative slender rod).
 Treatment:
 Topical sulfacetamide,
 erythromycin, ciprofloxacin,
gatifloxacin or ofloxacin
 NEW agent: besifloxacin
◼ Opthalmic suspension
Ocular Lymphogranuloma Venereum

 Etiological agent:
 Chlamydia trachomatis
 Diagnosis:
 This is a chlamydial disease transmitted to
the fetus during passage down the birth
canal.
 Inflammation begins about five days after
birth and never results in follicle formation
(thus, it differs from trachoma and inclusion
conjunctivitis).
 Corneal scars, conjunctival scars, and
micropannus formation occur.
 It is rarely a cause of blindness.
 There will be inclusions in the epithelial
cells of the conjunctiva.
 Treatment:
 Azithromycin, Erythromycin
 Doxycycline (DOC) but caution in children
Trachoma
 Caused by Chlamydia trachomatis
 This disease is limited to man, infecting only epithelial
cells of the eye and possibly the nasopharynx; no
systemic involvement has been described. It is found
worldwide, and is the greatest single cause of
blindness.
 Scarring of the conjunctiva may cause the eyelids to
turn inward so that the lashes scratch the cornea
 Distortion of the structures of the external eye also
interferes with normal lacrimal flow, growth of lashes,
and function of glands; as a result, bacterial infections
of trachomatous eyes are common
 Normal Tarsal
Conjunctiva:
 Pink,smoth, thin and
transparent. Over the
whole area of the
tarsal conjuctiva,
there are large deep-
lying blood vessels
that run vertically
 (TF)Trachomatous
Inflammation- follicular
 Presence of five or
more follicles in the
upper tarsal
conjunctiva
◼ Follicles are round
swellings that are paler
than the surrounding
conjunctiva, appearing
white, grey or yellow
◼ O.5mm in diameter
 (TI)Trachomatous
Inflammation-Intense
 Pronounced inflammatory
thickening of the tarsal
conjuctiva that obscures
more than half of the
normal deep tarsal
vessels
◼ The tarsal conjunctiva
appears red, rough and
thickened, with numerous
follicles which may be
covered by the thickened
conjuctiva
 Trachomatous
scarring (TS)
 The presence of
scarring in the tarsal
conjunctiva
 Scars are visible as
white lines or sheets
in the tarsal
conjunctiva. They are
glistening and fibrous
in appearance.
 Scarring, especially
diffuse fibrosis, may
obscure the tarsal
blood vessels
 Trachomatous
Trichiasis (TT)
 At least one
eyelash rubs on
the eyeball
 Evidence of
recent removal of
inturned eyelas
should also be
graded as
trichiasis
 Corneal Opacity
 Easily visible corneal
opacity over the pupil
 The pupil margin is
blurred viewed
through the opacity.
Such corneal
opacities cause
significant visual
impairment ( less than
6/18 or 0.3 vision) and
visual acuity should
also be measured
Trachoma
 Treatment
 Based on WHO SAFE strategy:
◼ Azithromycin
◼ DOC for trachoma
◼ 1% tetracycline ointment
◼ Aternative for Azithromycin
Viral Conjunctivitis
 Etiological agents:
 Adenovirus, types 3,7 and 8
 Human Herpesvirus 1 (Herpes simplex 1 virus)
 Human Herpesvirus 2 (Herpes simplex 2 virus)
 Varicella-Zoster virus
 Cytomegalovirus
 Diagnosis
 Bilateral conjunctivitis which is usually self limited. It may be recurrent
with herpesvirus. No constitutional symptoms are present
 Treatment:
 For Symptomatic relief
◼ Artifical tears
◼ Azalastine opthalmic
◼ Competes with H1 receptors
◼ Ketotifen
◼ Relatively selective H1 receptor antagonist that inhibits the release of mastcells
Fungal Conjunctivitis
 Etiological agents
◼ Candida albicans, Sporothrix schenkii, Allescheria sp., Aspergillus sp.,
Mucor sp
 Diagnosis:
 An uncommon disease which can be acute or chronic. Often secondary
to fungal infections of other parts of the body. Often aggravated by
glucosteroids and initiated after antibiotic therapy. Diagnosed by
isolation of the etiological agent
 Treatment
◼ Natamycin: Initial drug for fusarium disease
◼ Amphotericin B: First agent of choice for corneal infections due to yeast such as
candida
◼ Azoles: For Fusarium, Aspergillus, Curvilaria and Candida
◼ Flucytosine: Active against Candida and Cryptococcus
◼ Voriconazole: DOC for aspergillus, Fusarium Blastomyces, Coccidiodes, Curvularia and
other fungal infection
Parasitic conjunctivitis
 River blindness
 Onchocerca vulvulus
◼ Onchocerciasis: transmitted by simulium blackflies
◼ Second leading cause of blindness in the world
◼ Treatment:
◼ Ivermectin: Drug of choice
◼ Moxidectin: a macrolytic lactone for 12 yrs and older,
does not kill adult O. vulvulus
◼ Doxycycline:
▪ Adjunct therapy
▪ may be used to eliminate the endosybiotic bacteria
Woblachia; this disrupts production of microfilariae
by the adult female worm
 Loa loa
 African eye worm
◼ Transmitted by Chrysops deer fly
◼ Treatment:
◼ Diethylcarbamazine
◼ Available only through CDC

◼ Serves as inhibitor of arachidonic acid metabolism in
microfilaria
◼ Albendazole
◼ For treatment of symptomatic loiasis with parasitemia
of 8000 microfilariae/mL
Cornea
Ophthalmia neonatorum
 Etiological agent:
 Neisseria gonorrhoeae
 Diagnosis:
 The disease is contracted from a mother with gonorrhea as the fetus
passes down the birth canal. Infection does not occur in utero. At one
time about 10% of all cases of blindness in the United States was due to
this disease. Corneal inflammation is the major clinical sign.
 Treatment:
 Erythromycin oral or ointment
◼ Systemic treatment is necessary
 Silver nitrate drops ( rarely used now)
◼ May be used to prevent disease
Bacteria Keratitis
 Inflammation of the cornea
 Features:
◼ Rapid progression
◼ Corneal destruction may occur in 24-48 hours
◼ Corneal ulceration, stromal abscess formation,
surrounding corneal edema and anterior segment
inflammation
 Etiological agents:
◼ Streptococcus, Pseudomonas, Enterobacteriaceae (
Klebsiella, Enterobacter, Serratia and Proteus),
Staphylococcus
 Treatment:
 Medical
◼ Tobramycin (14mg/mL)
◼ 1 drop every hour alternating with fortified cefazolin or
vancomycin
◼ Fourth generation fluoroquinolones
◼ Moxifloxacin and Gatifloxacin
◼ Moxi: penetrates better than Gati

◼ New fluoroquinolone
◼ Besifloxacin
◼ Approved in 2009 for bacterial conjunctivitis
Fungal Keratitis
 Aspergillus species is the most common isolate in
fungal keratitis world wide, followed by Fusarium
then penicillium
 More common in men than in women
 May be acquired through unhygienic contact lens
use
 This may extend from the cornea to the sclera and
intraocular structures
 May cause scleritis, endopthlamitis, panopthalmitis
◼ Very difficult to treat and may result to visual loss and loss
of eye
 Treatment
 Ampothericin B: Drug of choice to treat patients
with fungal keratitis caused by yeast
 Natamycin: for filamentous organisms
◼ The only commercially available topical opthalmic
antifungal preparation
◼ Useful against Fusarium
 Surgical Treatment
◼ For unresponsive to treatment
◼ Some cases, even surgery will not restore vision
◼ May include corneal transplantation
Intraocular
Uveitis
 Nonpurulent uveitis seldom involves the entire uveal
tract but may occur predominantly in the anterior
segment (iritis, iridocyclitis) or the posterior segment
(posterior uveitis, retinitis
 Common causes of Anterior uveitis:
 Mumps virus, Human Herpesvirus 3 (Varicella-Zoster
virus), Rubella virus, Rubeola virus, Human Herpesvirus
1 (Herpes simplex 1 virus)
 Common causes of Posterior uveitis:
 Toxoplasma gondii (25% of all cases) Toxocara sp.,
Cryptococcus neoformans, Histoplasma capsulatum,
Mycobacterium tuberculosis, Cytomegalovirus, Herpes
simplex 1 virus, Human immunodeficiency virus
MICROBIAL DISEASES
OF THE SKIN AND EYES
PHMP (SKIN)
Structure and Function
of the Skin
 The skin is a physical barrier against
microorganisms.
 Moist areas of the skin support larger
populations of bacteria than dry areas.
Structure and Function
of the Skin
1. Epidermis
2. Dermis

 Components:
 Keratin

 Sebum

 Perspiration
Structure and Function
of the Skin
 Epidermis
 The outer portion of the skin
 Composed of several layer of epithelial cells
 The outermost layer, the stratum corneum,
consists of many rows of dead cells that contains
a waterproofing protein called keratin
 Effective physical barrier against mo
Structure and Function
of the Skin
 Dermis
 The inner, relatively thick portion of skin
 Composed mainly of connective tissue
 The hair follicles, sweat gland ducts, and oil
gland ducts in the dermis provide passage-
ways through which microorganisms can enter
the skin and penetrate deeper tissues.
Structure and Function
of the Skin
 Perspiration
 Provides moisture and some nutrients for
microbial growth
 Also contains salt which inhibits many micro-
organisms
 Contains the enzyme lysozyme, which is
capable of breaking down the cell walls of
certain bacteria; and antimicrobial peptides.
Structure and Function
of the Skin
 Sebum
 Secreted by oil glands
 A mixture of lipids (unsaturated fatty acids),
proteins, and salts
 Prevents skin and hair from drying out
Structure and Function
of the Skin
 Mucous membrane a.k.a. mucosa
 Lines the body cavities that open to the
exterior, i.e. gastrointestinal, respiratory,
urinary, and genital tracts
 Consists of sheets of tightly packed epithelial
cells attached at their bases to a layer of
extracellular material called basement
membrane
Structure and Function
of the Skin
 Many secretes mucus
 Other mucosal cells have cilia, i.e. respiratory
system
 Often acidic
 Membranes of the eyes are mechanically
washed by tears, and the lysozymes in tears
destroys the cell walls of certain bacteria
Normal Microbiota of the Skin

 Microorganisms that live on skin are resistant
to desiccation and high concentrations of salt.

 Gram-positive cocci predominate on the skin.

 Washing does not completely remove the
normal skin microbiota.
Normal Microbiota of the Skin

 Members of the genus Cutibacterium
metabolize oil from the oil glands and colonize
hair follicles.

 Malassezia furfur yeast grows on oily
secretions and may be the cause of dandruff.
Normal Microbiota of the Skin

 The majority (90%) of skin microbiota consist
of coagulase-negative Staphylococcus
epidermidis.
Microbial Diseases of the Skin
 Different Terms for Rashes and Lesions
 Vesicles are small fluid-filled lesions
 Bullae are vesicles larger than 1 cm

 Macules are flat, reddened lesions

 Papules are raised lesions

 Pustules are raised lesions containing pus
 Papules

Bullae

Vesicle

Pustules Macules
Bacterial
Diseases of the Skin
Staphylococcus

 Staphylococci are spherical gram-positive
bacteria that form irregular grape-like clusters
 Divided into those that produce coagulase,
and those that do not
Coagulase-positive
◼ S. aureus
Coagulase-negative
◼ S. epidermidis
Staphylococcus

 Staphylococcus epidermidis
 Coagulase-negative
 Very common on the skin
 Generally pathogenic only when the skin
barrier is broken or is invaded by medical
procedures, e.g. insertion and removal of
catheters into veins
Staphylococcus

 Staphylococcus aureus
 Resident microbiota of the nasal passage
 Forms golden-yellow colonies
 Almost all pathogenic strains of S. aureus
produce coagulase
 Some strains have impressive array of
virulence factors and means of evading host
defenses
 S. aureus infects the
skin Blocks
Resistant to
chemotaxis of
opsonization
neutrophils

It stimulates vigorous Produce
Survive well
inflammatory response toxins that kills
within the
phagocytic
phagosome
cells
Macrophages and Neutralize the
neutrophils are Cell wall is
peptide
lysozyme
attracted to the site of defensin on
resistant
infection skin

However, S. aureus
evade host defense
Staphylococcus
 Localized infections (sties, pimples, and
boils) result from entry of S. aureus through
openings in the skin.
Staphylococcus
 Carbuncle is a furuncle which extensively
damages neighboring tissues
 Produce a hard, round deep inflammation of
tissue under the skin
 Patient can exhibit general illness with fever
Staphylococcus
 Impetigo is highly contagious skin infection
caused by Staphylococci. Characterized by
isolated yellow pustules that become crusted.
Staphylococcus
 Toxemia occurs when toxins enter the
bloodstream; staphylococcal toxemias include
scalded skin syndrome and toxic shock
syndrome.
 Staphylococcus

 S. aureus produces
exfoliative toxins:
 Exfoliatin A – causes
localized, bullous
impetigo
 Exfoliatin B – causes the
systemic infection of
scalded skin syndrome
Staphylococcus
 Scalded skin syndrome is also characteristic of
the late stages of toxic shock syndrome
(TSS).
 Potential life-threatening condition, fever,
vomiting, and a sunburn-like rash
 Followed by shock and sometimes organ failure
(especially kidney failure)
 Caused by a staphylococcal toxin called TSST-1
Streptococcus

 Streptococci are gram-positive spherical
bacteria usually grows in chains.
 Prior to division, the individual cocci elongate
on the axis of the chain, and then the cells
divide.
 Cause a wide range of disease conditions
including meningitis, pneumonia, sore throat,
otitis media, endocarditis, puerperal fever, and
even dental caries.
Streptococcus
 Streptococci are classified according to their
hemolytic enzymes (hemolysin) and cell wall
antigens.
Hemolytic activity
◼ Alpha, beta, gamma
Cell wall antigen
◼ Group A to T
Streptococcus

 Streptococcus pyogenes
 Group A beta-hemolytic streptococci (GAS)
produce a number of virulence factors: M
protein, deoxyribonuclease, streptokinases,
and hyaluronidase.
 Cause severe and rapid tissue destruction.
Streptococcus
 Erysipelas
 Skin erupts into reddish patches with raised
margins
 Can progress to local tissue destruction and
even enter the bloodstream causing sepsis
 Usually appears first on the face
 High fever is common
Streptococcus
 Necrotizing fasciitis
 Invasive group A streptococcal infection that
destroys tissue and initially resembles TSS
 “Flesh-eating bacteria”
 Causes by pyrogenic toxins, streptococcal M-
protein types (act as superantigens)
 Associated with streptococcal TSS
Pseudomonas

 Pseudomonas aeruginosa
 Aerobic gram-negative rod
 Resistant to many antibiotic and disinfectant
 Can survive in any moist
environment, traces of
unusual organic matter such
as soap films, cap liner
adhesives
 Pseudomonas

 Diseases caused by P.
aeruginosa include otitis
externa, respiratory
infections, burn
infections, and
dermatitis
 Produces an endotoxin
and several exotoxins
Other Bacteria

 Mycobacterium ulcerans
 Causes deep-tissue ulceration or Buruli ulcer
Other Bacteria

 Cutibacterium acnes
 Formerly known as Propionibacterium acnes
 Its metabolic products (fatty acids) cause
inflammatory acne
 Comedonal (mild) acne
 Inflammatory (moderate) acne

 Nodular cystic (severe) acne
Viral
Diseases of the Skin
Warts
 Papillomaviruses cause skin cells to proliferate
and produce a benign growth called a wart or
papilloma.
 Warts are transmitted from one person to
another by direct contact, even sexually.
 After infection, there is an incubation period of
several weeks before the warts appear.
Warts
 Warts may regress spontaneously or be
removed chemically or physically.
 Nonpharmacologic Treatment
 Cryotherapy

 Electrodessication

 Acidtreatment
 Laser
Warts
 Pharmacologic Treatment
 Salicylicacid
 Podofilox

 Imiquimod

 Bleomycin
Variola
 Variola, also known as smallpox, is caused
by an orthopoxvirus known as smallpox
(variola) virus.
 Variola virus causes two types of skin
infections: variola major and variola minor.
Variola
 Smallpox is transmitted by the respiratory
route, and the virus is moved to the skin via
the bloodstream.
 The growth of the virus in the epidermal layers
of the skin causes lesions that becomes
pustular after 10 days or so.
Variola
 Smallpox has been eradicated as a result of a
vaccination effort by the World Health
Organization.
Varicella-Zoster
 Chickenpox (varicella) is a relatively mild
disease when contracted, as it usually is, in
childhood.
 It is the initial infection of a herpesvirus
Varicellovirus.
 The species is varicella-zoster, or officially,
human herpesvirus (HHV-3).
Varicella-Zoster
 HHV-3 is transmitted by the respiratory route
and is localized in skin cells after about 2
weeks.
 The infected skin is vesicular for 3 to 4 days.
 Complications of chickenpox include
encephalitis and Reye’s syndrome.
Varicella-Zoster
 Shingles
 Characterized by a vesicular rash along the
affected cutaneous sensory nerves.
 After chickenpox, the virus can remain latent in
nerve cells and subsequently activate as
shingles.
Varicella-Zoster
 Treatment
 HHV-3 can be treated with acyclovir.
 An attenuated live vaccine is available.
Herpes Simplex
 Herpes simplex viruses (HSV) can be
separated into two identifiable groups:
 HSV-1 (or human herpesvirus 1)
 HSV-2 (or human herpesvirus 2)
Herpes Simplex
 Cold sores
 Herpes simplex (HSV-1) infection of mucosal
cells
 Painful, short-lived vesicles that occur near the
outer red margin of the lips
https://www.verywellhealth.com/stages-of-a-cold-sore-outbreak-4173005
Herpes Simplex
 HSV-1 is transmitted primarily by skin contact,
oral and respiratory routes.
 The virus remains latent in nerve cells, and
cold sores can recur when the virus is
activated.
Herpes Simplex
 Herpes encephalitis occurs when herpes
simplex viruses (HSV-1 and HSV-2) infect the
brain.
 Treatment
 Acyclovir
has proven successful in treating
herpes encephalitis.
Measles
 Measles (Rubeola)
 Caused by measles virus
 An extremely contagious viral disease
transmitted by the respiratory route
 Vaccination (MMR vaccine) against measles
provides effective long-term immunity
Measles
 After the measles virus has incubated (10-12
days) in the upper respiratory tract, the
following signs and symptoms appear.
 Symptoms (like fever) similar to common cold.
 Macular lesions appear on the skin.

 Koplik’s spots appear on the oral mucosa.
://phil.cdc.gov/PHIL_Images/20040908/4f54ee8f0e5f49f58aaa30c1bc6413ba
/6111_lores.jpg
 Measles

 Complications of
measles include
middle ear infections,
pneumonia,
encephalitis, and
secondary bacterial
infections.
Rubella
 Rubella (German measles)
 The rubella virus is transmitted by the
respiratory route and causes a red rash and
light fever.
 Congenital rubella syndrome can affect a fetus
when a woman contracts rubella during the
first trimester of her pregnancy.
Rubella
 Vaccination with live, attenuated rubella virus
provides immunity of unknown duration.
Other Viral Diseases
 Fifth disease
 Also known as erythema infectiosum
 Causes by human parvovirus B19
 Characterized by symptoms similar to mild
influenza and a slapped-cheek facial rash that
slowly fades
 Roseola
 Mild, very common childhood disease caused
by HHV-6 and HHV-7
Other Viral Diseases
 Hand-foot-and-mouth disease
 An infection in young children in day care,
preschool, and kindergarten
 Caused by several enteroviruses
 Spread by contact with mucous or saliva of an
infected person
 Characterized by sore throat, then rashes
appearing on hands, feet, mouth, tongue, and
interior cheeks
Fungal Infection
 Fungal infections or mycoses cause a wide
range of diseases in humans.
1. Superficial Infection
2. Cutaneous Infection
3. Subcutaneous Infection
4. Deep mycosis
Superficial Fungal Infection
 Pityriasis versicolor
 Common superficial mycosis, which is
characterized by hypopigmentation or
hyperpigmentation of skin of the neck,
shoulders, chest, and back
 Due to Malassezia furfur which involves
only the superficial keratin layer
 Superficial Fungal Infection

 Black Piedra
 A superficial mycosis
due to Piedraia hortae
which is manifested
by a small firm black
nodule involving the
hair shaft
 Superficial Fungal Infection

 White Piedra
 Due to Trichosporon
beigelii is
characterized by a
soft, friable, beige
nodule of the distal
ends of hair shafts
 Superficial Fungal Infection

 Tinea Nigra
 Most typically presents
as a brown to black
silver nitrate-like stain
on the palm of the
hand or sole of the foot
and and is caused by
Phaeoannellomyces
werneckii
Cutaneous Fungal Infection
 Dermatophytoses
 Caused by fungi (Microsporum, Trichophyton,
and Epidermophyton) that colonize the outer
layer of the epidermis cause dermatomycoses
 Also known as ringworm, or tinea
 These fungi grow on keratin-containing
epidermis, such as hair, skin, and nails
 Name Common Name Location

Tinea pedis Athlete’s foot Feet

Tinea unguium Onchomycosis Nails

Tinea corporis Ringworm Arm, legs, and trunk

Tinea cruris Jock itch Groin area
Hands and palm
Tinea manuum
area
Tinea capitis Scalp

Tinea barbae Barber’s itch Facial hair

Tinea faciei Face fungus Face
 Athletes’ foot Onychomycosis (Tinea
unguium)

Ring worm (Tinea corporis) Tinea cruris (jock itch)
Tinea capitis Tinea barbae

Tinea faciei
Cutaneous Fungal Infection
 Diagnosis is based on the microscopic
examination of skin scrapings or fungal
culture.
Cutaneous Fungal Infection
 Dermatomycoses
 Cutaneous infections due to other fungi, the
most common of which are Candida albicans.
 C. albicans causes infections of mucous
membranes and is a common cause of oral
thrush and vaginitis.
Subcutaneous Fungal Infection

 Sporotrichosis
 Results from a soil fungus (Sporothrix
schenckii) that penetrates the skin through a
wound
 Common among gardeners or people working
with soil
Subcutaneous Fungal Infection

 Chromoblastomycosis
 Subcutaneous mycosis characterized by
verrucoid lesions of the skin
 Most common causes are:
 Fonsecaea pedrosoi (Pedroso’s disease)

 Fonsecaea compacta (Fonseca’s disease)

 Cladosporium carionii (Cladosporiosis)

 Phialophora verrucosa
Subcutaneous Fungal Infection

 Madura foot (mycetoma)
 Chronic infection of the skin and underlying
tissues by both bacteria (actinomycetoma) and
fungi (eumycetoma).
 Suppurative and granulomatous subcutaneous
mycosis
 Occur most often in farmers, hunter-gatherers,
and field laborer
Parasitic
Infestation of the Skin
 Scabies

 Scabies
 Involves intense local itching
 Caused by a tiny mite Sarcoptes scabiei
burrowing and laying eggs in the skin
 The mite is transmitted by intimate contact
https://www.nhs.uk/conditions/scabies/
Scabies
 Mite lives ~25 days, but by that time eggs
have been laid and hatched
 Diagnosis
 Microscopic examination of skin scrapings
 Treatment
 Topical permethrin
 Oral ivermectin
 Pediculosis

 Pediculosis
 Infestation by the
head lice Pediculus
humanus capitis
 Lice are easily
transferred by head-
to-head contact

https://www.skin-disorders.net/diseases/pediculosis-capitis.html
© Gilles San Martin (2010)