2: Cornea Flashcards

Question 1

Q

Bowman’s layer damage

Answer

A

does not regenerate
will be replaced by epithelial cells or stroma-like fibrous tissue
however, very resistant to damage by shearing, penetration, or infection

Question 2

Q

stromal damage

Answer

A

leads to scarring/opacification
newly formed connective tissue components differ slightly from original tissue; alignment and organization of collagen fibrils are not as precise

Question 3

Q

Descemet’s membrane damage

Answer

A

can be secreted and re-formed by stromal keratocytes and endothelium
however, very resistant to damage by shearing, penetration, or infection

Question 4

Q

epithelial damage

Answer

A

heals within hours to days (turnover time for entire corneal epithelium is 7-10 days)
if the basement or hemidesmosomes are damaged, takes months to heal completely; if hemidesmosomes are malformed, can lead to recurrent corneal erosion
increases risk of infection due to break in epithelial barrier
generally scar-free
can result in mild stromal edema; loss of tight junctions between surface cells allows fluid from tear film to enter K
if trigeminal nerve damage or limbal stem cell damage, wound healing will be impaired

Question 5

Q

endothelial damage

Answer

A

endothelial cells do not regenerate
with cell loss, neighboring cells generally enlarge and flatten to cover the area of loss: results in enlarged endothelial cells (polymegathism), irregularly shaped cells (pleomorphism), and a decrease in cell density
can result in stromal edema: loss of cells = loss of metabolic pumps; moderate to severe edema in the stroma will cause folds in Descemet’s membrane; corneal edema is directed towards posterior stroma (anterior stroma has more tightly packed lamellae of collagen making it more resistant to edema); cause Descemet’s membrane to buckle giving the appearance of vertical folds (striae)

Question 6

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer)

Answer

A

bacterial infection of the cornea

Question 7

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) etiology/associations

Answer

A

corneal epithelial defect with subsequent bacterial infection:

epithelial defect is most commonly the result of contact lens wear, particularly if extended
epithelial defects can also occur from trauma, surgery, ocular surface disease (e.g., herpetic keratitis, dry eye, trichiasis, severe allergic eye disease, corneal anesthesia)
most common bacteria include Staph and Strep species, Pseudomonas aeruginosa, and Moraxella catarrhalis

some bacteria can penetrate an intact cornea (no epithelial defect)

keratitis usually occurs as a result of a severe conjunctivitis
includes Neisseria gonorrhoeae, Neisseria meningitidis, Haemophilus influenzae, Corynebacterium diphtheriae)

Question 8

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) demographics

Answer

A

most commonly occurs in CL wearers

Question 9

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) laterality

Answer

A

unilateral

Question 10

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) symptoms

Answer

A

red eye
ocular pain with tearing and photophobia
mucous discharge
blurred vision

Question 11

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) signs

Answer

A

conjunctival injection
infectious corneal ulcer (stromal thinning with overlying epithelial defect and an associated stromal infiltrate): size of epithelial defect is approx. = to size of stromal infiltrate; typically located centrally or paracentrally
stromal edema
AC rxn (WBCs in the AC); if severe, hypopyon can form
mucopurulent/purulent discharge
eyelid edema in severe cases

Question 12

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) complications

Answer

A

corneal scarring

- corneal perforation

Question 13

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) management

Answer

A

d/c CL wear
topical broad spectrum antibiotic(s)
H. influenzae and N. gonorrhoeae require systemic treatment in addition to a topical antibiotic
oral analgesic as needed
cycloplegic for pain
evaluate daily to monitor for improvement in s/s; improvement should occur in 24-48 hours of initiating tx with resolution in 1-2 weeks
if not resolving with tx, ulcer larger than 2 mm or in the visual axis, consider culturing
if not resolving with tx, consider an amniotic membrane in addition to a topical antibiotic
if severe inflammation persists after bacterial infection is under control, consider a topical steroid
if significant stromal thinning occurs, limit the risk of corneal perforation by treating with ascorbic acid (promotes collagen synthesis) and citric acid or a tetracycline (inhibits collagenolysis); also discuss eye protection
if medical therapy fails, corneal perforation occurs, or there is visually significant corneal scarring, refer out for penetrating keratoplasty (PKP, full thickness corneal transplant); another option for corneal perforation is an amniotic membrane transplantation

Question 14

Q

bacterial keratitis (microbial keratitis, corneal ulcer, bacterial ulcer) pearls:

infectious keratitis is commonly _____; in general, corneal infections are treated as _____
when infectious keratitis is present, check IOP ____
with patients in significant pain from a corneal issue, consider _____, but never ___

Answer

A

bacterial;
bacterial unless high suspicion for another organism;
using non-contact method or iCare;
instilling a topical anesthetic during exam to aid in evaluation the eye;
prescribe an anesthetic for ocular pain!!!

Question 15

Q

fungal keratitis

Answer

A

fungal infection of the cornea

Question 16

Q

fungal keratitis etiology/associations

Answer

A

corneal epithelial defect with subsequent fungal infection
if filamentous fungi (e.g., Aspergillus and Fusarium species), epithelial defect is most commonly the result of trauma with vegetative matter or contact lens wear, particularly if extended
if non-filamentous fungi (e.g., Candida species), epithelial defect is most commonly the result of ocular surface disease (e.g., herpetic keratitis, dry eye, trichiasis, severe allergic eye disease, corneal anesthesia)

Question 17

Q

fungal keratitis demographics

Answer

A

no predilection

Question 18

Q

fungal keratitis laterality

Answer

A

unilateral

Question 19

Q

fungal keratitis symptoms

Answer

A

red eye
ocular pain with tearing and photophobia
mucous discharge
blurred vision

Question 20

Q

fungal keratitis signs

Answer

A

conjunctival injection
infectious corneal ulcer (stromal thinning with overlying epithelial defect and an associated stromal infiltrate): size of epithelial defect < size of stromal infiltrate; infiltrate has feathery edges if filamentous fungi; typically located centrally or paracentrally
satellite lesions surrounding the primary infiltrate
stromal edema
AC rxn (WBCs in AC); if severe, hypopyon can form
mucopurulent/purulent discharge
eyelid edema in severe cases

Question 21

Q

fungal keratitis complications

Answer

A

corneal scarring

- corneal perforation

Question 22

Q

fungal keratitis management

Answer

A

d/c CL wear
culture to confirm diagnosis; may have bacterial co-infection
topical anti-fungal; consider epithelial debridement to facilitate antifungal penetration
oral antifungal in addition to topical antifungal for deep ulcers
oral analgesic as needed
cycloplegic for pain
evaluate daily to monitor for improvement in s/s; stability of infection after initiation of tx is often a favorable sign; resolution may take weeks to month
if not resolving with tx, consider an amniotic membrane in addition to a topical antifungal
if significant stromal thinning occurs, limit the risk of corneal perforation by treating with ascorbic acid (promotes collagen synthesis) and citric acid or a tetracycline (inhibits collagenolysis); also discuss eye protection
if medical therapy fails, corneal perforation occurs, or there is visually significant corneal scarring, refer out for penetrating keratoplasty (PKP, full thickness corneal transplant); another option for corneal perforation is an amniotic membrane transplantation

Question 23

Q

fungal keratitis pearls:

-do not use ____ for fungal keratitis

Answer

A

topical steroids (can promote replication of microorganism)

Question 24

Q

acanthamoeba keratitis

Answer

A

protozoal infection of the cornea

Question 25

Q

acanthamoeba keratitis etiology/associations

Answer

A

corneal epithelial defect with subsequent acanthamoeba infection
epithelial defect is most commonly the result of contact lens wear, particularly if extended
infection typically occurs when a contact lens wearer uses nonsterile water to clean lenses or exposure to water while wearing contact lenses

Question 26

Q

acanthamoeba keratitis demographics

Answer

A

most commonly occurs in CL wearers

Question 27

Q

acanthamoeba keratitis laterality

Answer

A

unilateral

Question 28

Q

acanthamoeba keratitis symptoms

Answer

A

red eye
ocular pain with tearing and photophobia; pain is usually out of proportion to early clinical findings
mucous discharge
blurred vision

Question 29

Q

acanthamoeba keratitis signs

Answer

A

conjunctival injection
early findings: epitheliitis with pseudodendrites, whorls, epithelial ridges, and/or diffuse subepithelial microcysts; subepithelial infiltrates (SEIs)- sometimes along the corneal nerves, producing a radial keratoneuritis
late (3-8 weeks): ring-shaped corneal stromal infiltrate
stromal edema
AC rxn; if severe, hypopyon can form
minimal mucous discharge
eyelid edema in severe cases

Question 30

Q

acanthamoeba keratitis complications

Answer

A

corneal scarring

- corneal perforation

Question 31

Q

acanthamoeba keratitis management

Answer

A

d/c CL wear
culture to confirm diagnosis; may have bacterial and/or fungal co-infection
topical antiprotozoal; consider epithelial debridement to facilitate antiprotozoal penetration
topical propamidine isethionate (disinfectant and antiseptic) in addition to topical antiprotozoal
oral antifungals in addition to the above treatment have shown success
oral analgesic as needed
cycloplegic for pain
evaluate daily to monitor for improvement in s/s; stability of infection after initiation of tx is often a favorable sign; resolution may take 1-12 months; tx is usually continued for 3 months after resolution of inflammation due to concern for recurrence
if not resolving with tx, consider an amniotic membrane in addition to a topical antiprotozoal
if sever inflammation persists after acanthamoeba infection is under control, consider a topical steroid
if significant stromal thinning occurs, limit the risk of corneal perforation by treating with ascorbic acid (promotes collagen synthesis) and citric acid or a tetracycline (inhibits collagenolysis); also discuss eye protection
if medical therapy fails, corneal perforation occurs, or there is visually significant corneal scarring, refer out for penetrating keratoplasty (PKP, full thickness corneal transplant); another option for corneal perforation is an amniotic membrane transplantation

Question 32

Q

acanthamoeba keratitis pearls:
-early misdiagnosis as _____ is relatively common; presentation of 2 disease can be quite similar in the early stages; ____ typically responds well to appropriate tx

Answer

A

HSV keratitis;

HSK

Question 33

Q

marginal keratitis

Answer

A

also called Staphylococcal Hypersensitivity, Marginal Sterile Infiltrate, and/or Marginal Sterile Ulcer
inflammation of the peripheral cornea

Question 34

Q

marginal keratitis etiology/associations

Answer

A

type IV hypersensitivity reaction to staphylococcal antigens
commonly associated with chronic staphylococcal blepharitis

Question 35

Q

marginal keratitis demographics

Answer

A

typically occurs between the ages of 45-65 years

Question 36

Q

marginal keratitis laterality

Answer

A

bilateral > unilateral

Question 37

Q

marginal keratitis symptoms

Answer

A

mild red eye
mild ocular pain with tearing and photophobia
chronic eyelid crusting and dryness from blepharitis

Question 38

Q

marginal keratitis signs

Answer

A

sectoral conjunctival injection (in area of infiltrate)
stromal inifiltrate(s) (WBCs) near the limbus; infiltrates are small, round, and well defined; can coalesce and become circumferential; separated from the limbus by a clear zone
sterile ulcer (stromal thinning with overlying epithelial defect in the area of the stromal infiltrate); size of epithelial defect < size of infiltrate
minimal to no AC rxn
mild pannus
blepharitis

Question 39

Q

marginal keratitis complications

Answer

A

corneal scarring

Question 40

Q

marginal keratitis management

Answer

A

eyelid hygiene and warm compress for blepharitis
topical antibiotic (low dose antibiotics on the eyelids may have to be maintained indefinitely)
if moderate to severe, topical steroid in addition to topical antibiotic
oral doxycycline if blepharitis is refractory to eyelid hygiene and warm compress
if patient is a CL wearer, d/c CL wear

Question 41

Q

marginal keratitis pearls:

condition is generally _____
CL wearers can develop _____

Answer

A

chronic and recurrent;
similar sterile infiltrates (also due to hypersensitivity rxn to staphylococcal antigens; often seen in pts who sleep in CLs; may not be a clear zone between infiltrate and limbus; most pts present with mild to no symptoms and do not come in for an exam; if active inflammation, tx includes d/c CL wear until resolution, topical lubrication, and discuss CL hygiene)

Question 42

Q

phlyctenular keratoconjunctivitis (phlyctenulosis)

Answer

A

inflammation of the cornea and conjunctiva

Question 43

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) etiology/associations

Answer

A

type IV hypersensitivity reaction to staphylococcal antigens; may also be a hypersensitivity reaction to tuberculosis
commonly associated with chronic staphylococcal blepharitis

Question 44

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) laterality

Answer

A

unilateral or bilateral

Question 45

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) symptoms

Answer

A

mild red eye
ocular pain with tearing and photophobia
chronic eyelid crusting and dryness from blepharitis

Question 46

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) signs

Answer

A

sectoral conjunctival injection (in area of phlyctenule)
conjunctival phlyctneule (small, white subepithelial inflammatory nodule); at or near the limbus
corneal phlyctenule (small, white subepithelial inflammatory nodule); juxtablimbal; migrates toward center of cornea with trail of neovascularization; may have an overlying epithelial defect
blepharitis

Question 47

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) complications

Answer

A

corneal scarring (typically in the shape of a triangle)

Question 48

Q

phlyctenular keratoconjunctivitis (phlyctenulosis) management

Answer

A

eyelid hygiene and warm compress for blepharitis
topical antibiotic (low dose antibiotics on the eyelids may have to be maintained indefinitely)
if moderate to severe, topical steroid in addition to topical antibiotic
oral doxycycline if blepharitis is refractory to eyelid hygiene and warm compress
if patient is a CL wearer, d/c CL wear
if suspicion for TB, order lab work

Question 49

Q

phlyctenular keratoconjunctivitis (phlyctenulosis)  pearls:
-condition is generally \_\_\_\_\_

Answer

A

chronic and recurrent

Question 50

Q

peripheral ulcerative keratitis (PUK)

Answer

A

inflammation and subsequent thinning of the peripheral cornea

Question 51

Q

peripheral ulcerative keratitis (PUK) etiology/associations

Answer

A

white blood cells release collagenase and protease that destroy corneal stroma
collagen vascular disease and vasculitis; most common diseases include RA, SLE, GPA, PAN
local or systemic infection; most common infections include staph, strep, gonococcal, herpes simplex, herpes zoster, lyme, syhpilis, TB

Question 52

Q

peripheral ulcerative keratitis (PUK) laterality

Answer

A

unilateral > bilateral

Question 53

Q

peripheral ulcerative keratitis (PUK) symptoms

Answer

A

red eye
ocular pain with tearing and photophobia
blurred vision

Question 54

Q

peripheral ulcerative keratitis (PUK) signs

Answer

A

sectoral conjunctival injection (in area of corneal thinning)
crescent-shaped corneal ulceration (stromal thinning with overlying epithelial defect); juxtalimbal; may have surrounding infiltrate
may have accompanied scleritis and/or anterior uveitis

Question 55

Q

peripheral ulcerative keratitis (PUK) complications

Answer

A

corneal scarring

- corneal perforation; can rapidly occur, within days

Question 56

Q

peripheral ulcerative keratitis (PUK) management

Answer

A

infectious:

aggressive topical lubrication
treat w/ appropriate anti-infective
amniotic membrane to relieve symptoms and facilitate healing

non-infectious:

aggressive topical lubrication
topical antibiotic
oral steroids
oral immunosuppressants for long-term therapy
bandage contact lens or amniotic membrane to relieve symptoms and facilitate healing
recommend eye protection
if etiology is unknown, order lab work based on most likely etiologies
if systemic etiology, refer out for systemic treatment
cyanoacrylate adhesive can arrest corneal melting
if significant stromal thinning occurs, limit the risk of corneal perforation by treating with ascorbic acid (promotes collagen synthesis) and citric acid or a tetracycline (inhibits collagenolysis); also discuss eye protection
if corneal perforation occurs, refer out for amniotic membrane transplantation or penetrating keratoplasty; PKP has a high failure rate due to graft melt from PUK recurrence

Question 57

Q

peripheral ulcerative keratitis (PUK) pearls:

very rare
chronic and recurrent
_____ is most common systemic association of PUK
~35% of patients also have ____
topical corticosteroids suppress corneal inflammation, but _____
____ is a similar condition

Answer

A

RA;
scleritis with necrotizing scleritis being most common;
they are usually best avoided in cases of PUK as they can contribute to corneal melt by suppressing collagen production;
Mooren’s ulcer (symptoms, signs, tx are similar; idiopathic; diagnosis of exclusion)

Question 58

Q

Terrien’s marginal degeneration

Answer

A

progressive circumferential thinning of peripheral cornea

Question 59

Q

Terrien’s marginal degeneration etiology/associations

Answer

A

idiopathic

Question 60

Q

Terrien’s marginal degeneration demographics

Answer

A

typically occurs over the age of 30

Question 61

Q

Terrien’s marginal degeneration laterality

Answer

A

bilateral > unilateral

Question 62

Q

Terrien’s marginal degeneration symptoms

Answer

A

asymptomatic

- blurred vision

Question 63

Q

Terrien’s marginal degeneration signs

Answer

A

peripheral stromal thinning; starts superiorly, spreads circumferentially
mild pannus over the area of thinning
irregular astigmatism

Question 64

Q

Terrien’s marginal degeneration management

Answer

A

monitor q6-12 months: slit lamp exam, photos
recommend glasses or eye shield for protection
correct refractive error with glasses/CLs
watch for: corneal scarring, corneal perforation (rare; epithelium usually remains intact)
corneal consultation when perforation seems likely or when astigmatism becomes uncorrectable

Answer 65

A

Furrow degeneration:

non-progressive
stromal thinning is peripheral to arcus senilis
no tx necessary

Answer 66

A

progressive central or paracentral (inferior to visual axis) stromal thinning accompanied by protrusion of the cornea in the area of thinning

Answer 67

A

unknown etiology
systemic associations: Down, Ehlers-Danlos, and Marfan syndromes
ocular associations: atopic disease (i.e., AKC), Leber congenital amaurosis, retinitis pigmentosa, chronic eye rubbing
family hx of keratoconus in 10% of patients

Answer 68

A

typically presents during teenage years

Answer 69

A

bilateral > unilateral

Answer 70

A

blurred vision- progressive

Answer 71

A

central or paracentral (inferior to visual axis) stromal thinning accompanied by protrusion of the cornea in a cone shape; maximal thinning at the apex of the protrusion; central or paracentral steepening on corneal topography
progressive myopia and irregular astigmatism; scissoring reflex on retinoscopy; “egg-shaped” mires on keratometry; abnormal corneal topography
oil-droplet reflex on retroillumination (cone-shape of the cornea produces a dark, round shadow)
Rizutti’s sign
Munson sign
Fleischer ring
Vogt striae; temporarily disappear with pressure on the globe
superficial apical scarring in advanced disease, due to breaks in Bowman’s layer

Answer 72

A

triangle of light on iris when penlight shined from opposite side

Answer 73

A

bulging of the lower eyelid when looking downward

Answer 74

A

epithelial iron deposits at the base of the cone

Answer 75

A

fine, vertical, deep stromal stress lines

Answer 76

A

corneal hydrops (influx of aqueous into the cornea due to a rupture in Descemet’s membrane); symptoms include a red eye, sudden decrease in vision, pain with tearing and photophobia and signs include conjunctival injection, corneal edema, AC rxn

Answer 77

A

monitor q3-12 months: corneal topography, slit lamp exam, photos
discuss avoidance of rubbing eyes
correct refractive error with glasses/CLs (soft, RGP, scleral)
if CLs cannot be tolerated or produce unsatisfactory results, refer out for intracorneal ring segment transplantation or keratoplasty
consider referral for corneal collagen cross-linking (CXL)

Answer 78

A

must have minimum corneal thickness of 400 um, clear central cornea, and CL intolerance
ring segments made of PMMA are implanted in deep corneal stroma
goal is to reduce corneal irregularity and facilitate CL tolerance

Answer 79

A

penetrating keratoplasty (PKP)- full thickness corneal transplant
deep anterior lamellar (DALK)- partial thickness corneal transplant (epithelium to deep anterior stroma)
may have residual astigmatism, necessitating CL correction for optimal acuity

Answer 80

A

minimum of 400 um thickness required
large area of corneal epithelium removed, riboflavin drops instilled, exposed to UVA light x30 minutes
goal is to “cross-link” molecular bonds in the cornea to strengthen it and slow down (ideally eliminate) progression

Answer 81

A

treat with hypertonic saline, cycloplegic, optional large diameter BCL for comfort, and educate the patient on eye protection
Descemet’s break usually heals in 6-10 weeks, edema clears, and a variable amount of stromal scarring occurs
to speed recovery, refer for pneumatic descemetopexy (placement of air or gas in the anterior chamber)
if scarring occurs or becomes chronic, refer out for penetrating keratoplasty (PKP, full thickness corneal transplant)

Answer 82

A

corneal ectasia (1 in 2000 people);
<48D;
48-54D;
>54D;
2-3

Answer 83

A

progressive inferior peripheral stromal thinning accompanied by protrusion of the cornea above the thinned area

Answer 84

A

unknown etiology

Answer 85

A

typically presents during the ages of 20-40

Answer 86

A

bilateral > unilateral

Answer 87

A

blurred vision- progressive

Answer 88

A

crescent-shaped band of inferior stromal thinning accompanied by protrusion above the band; band ~1-2 mm in height and ~1-2 mm from the limbus; inferior “crab claw” or “kissing doves” pattern of steepening on corneal topography
irregular astigmatism; abnormal corneal topography

Answer 89

A

corneal hydrops (influx of aqueous into the cornea due to a rupture in Descemet’s membrane); symptoms include a red eye, sudden decrease in vision, pain with tearing and photophobia and signs include conjunctival injection, corneal edema, AC rxn

Answer 90

A

similar to keratoconus

- keratoplasty has a higher failure rate in PMD because it requires larger grafts

Answer 91

A

scarring, Vogt striae, and Fleischer ring

Answer 92

A

lipid deposition in the corneal stroma

Answer 93

A

age-related

- in patients < 40 years, MAY be due to hyperlipidemia

Answer 94

A

typically occurs over the age of 40

Answer 95

A

bilateral

Answer 96

A

asymptomatic

- may notice a gray or white ring around eye

Answer 97

A

gray to white band around the cornea
starts as an arc superior and inferior and extends circumferentially
separated from the limbus by a clear zone

Answer 98

A

none if age-related

- in patients < 40, order a lipid panel

Answer 99

A

peripheral corneal opacity

Answer 100

A

opacities in the corneal stroma; opacities are most likely vacuoles within the cytoplasm of keratocytes

Answer 101

A

age-related

Answer 102

A

typically occurs over the age of 40

Answer 103

A

bilateral

Answer 104

A

asymptomatic

Answer 105

A

gray or white polygonal stromal opacities separated by relatively clear spaces; starts in the peripheral cornea

Answer 106

A

elastotic degeneration at the limbus; may also have deposition of calcium

Answer 107

A

age-related

Answer 108

A

typically occurs over the age of 40

Answer 109

A

bilateral

Answer 110

A

asymptomatic

Answer 111

A

whitish superficial band at the limbus; typically at 3 and 9 o’clock; may have chalk-like flecks (calcium)

Answer 112

A

group of genetic, inherited disorders in which there is a bilateral, progressive accumulation of deposits within corneal layers

Answer 113

A

also called Anterior Basement Membrane Dystrophy (ABMD), Map-Dot Fingerprint Dystrophy, and/or Cogan’s Dystrophy
thickening of the corneal epithelial basement membrane with absence of hemidesmosomes and deposition of fibrillary protein between the BM and Bowman’s layer

Answer 114

A

genetic abnormality

Answer 115

A

typically becomes apparent during teenage years

Answer 116

A

bilateral

Answer 117

A

asymptomatic
ocular irritation (e.g., burning, FBS)
blurred vision

Answer 118

A

intraepithelial diffuse gray patches (maps), creamy white cysts (dots), or fine refractile lines (fingerprints) in the corneal epithelium
negative staining with Fl due to raised areas of epithelium

Answer 119

A

recurrent corneal erosion (RCE)

Answer 120

A

monitor: slit lamp exam, photos
topical lubrication (for prophylaxis of RCE)
if significant discomfort or reduced vision, refer for superficial keratectomy or keratoplasty (superficial keratectomy= smoothing of the corneal surface by removal of epithelium down to Bowman’s layer)
treat RCE

Answer 121

A

corneal dystrophy;
~10;
~30

Answer 122

A

accelerated endothelial cell loss with subsequent polymegathism (change in cell size) and pleomporphism (change in cell shape)

Answer 123

A

genetic abnormality

Answer 124

A

typically becomes apparent during the ages of 45-65

- women > men

Answer 125

A

bilateral

Answer 126

A

asymptomatic

- decreased vision, worse in the morning

Answer 127

A

Guttata centrally (accumulation of collagen in Descemet’s membrane; secreted by damaged endothelial cells); seen as tiny dark spots int he endothelium that progress to beaten-metal appearance
endothelial pigment
central stromal edema
central epithelial edema in advanced cases
stromal opacification in advanced cases

Answer 128

A

bullous keratopathy:

bullae (water blisters) form in the cornea as a result of severe stromal edema
bullae may rupture (lead to an epithelial defect) and cause significant pain

Answer 129

A

monitor: slit lamp exam, photos, specular microscopy, pachymetry
to treat corneal edema: hypertonic saline (sodium chloride, Muro 128), use of hairdryer in the morning
if ruptured bullae, treat with a topical antibiotic (for prophylaxis of bacterial infection) and BCL (for comfort) in addition to hypertonic saline
if decreased vision, refer for keratoplasty

Answer 130

A

cataract surgery;
guttata;
guttata;
Hassell-Henle bodies;
in the peripheral cornea

Answer 131

A

metaplasia (transformation of one differentiated cell type to another differentiated cell type) of endothelial cells; endothelial cells become epithelial-like (raised vs. flat and can divide)

Answer 132

A

genetic abnormality

Answer 133

A

typically becomes apparent during teenage years

Answer 134

A

bilateral > unilateral

Answer 135

A

asymptomatic

- decreased vision

Answer 136

A

classic vesicle-like lesions in posterior cornea (circular or oval transparent cysts with a gray halo)
band lesions (AKA snail tracks) in posterior cornea (horizontal lesions with parallel, scalloped edges)
stromal edema is rare

Answer 137

A

secondary open angle glaucoma; corneal endothelial cells may migrate over the TM and impair aqueous outflow

Answer 138

A

monitor q6-12 months (slit lamp exam, photos, IOP, gonio, ON photos, ON OCT, GCC, VF)
if glaucoma develops, tx is similar to POAG
if decreased vision, refer for keratoplasty

Answer 139

A

thickening of the corneal epithelial basement membrane with epithelial cysts filled with cellular debris

Answer 140

A

genetic abnormality

Answer 141

A

typically becomes apparent in 1st decade

Answer 142

A

bilateral

Answer 143

A

asymptomatic

- blurred vision

Answer 144

A

tiny intraepithelial vesicles in the interpalpebral zone extending limbus to limbus

Answer 145

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for superficial keratectomy or keratoplasty
treat RCE

Answer 146

A

hyaline-like deposits accumulate in Bowman’s layer and anterior stroma; stain red with Masson’s trichrome stain

Answer 147

A

genetic abnormality

Answer 148

A

typically becomes apparent in 1st decade

Answer 149

A

bilateral

Answer 150

A

asymptomatic

- blurred vision

Answer 151

A

irregular, gray-white, reticular opacities; initially in Bowman’s layer and anterior stroma centrally; progress to deeper stroma sparing the periphery

Answer 152

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 153

A

curly collagen fibrils accumulate in Bowman’s layer and anterior stroma

Answer 154

A

genetic abnormality

Answer 155

A

typically becomes apparent in 1st decade

Answer 156

A

bilateral

Answer 157

A

asymptomatic

- blurred vision

Answer 158

A

irregular, gray-white, honeycomb-like opacities; initially in Bowman’s layer and anterior stroma centrally; progress to deeper stroma sparing the periphery

Answer 159

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 160

A

amyloid deposits accumulate between the epithelial basement membrane and Bowman’s layer as well as in stroma; stain with Congo red stain

Answer 161

A

genetic abnormality

Answer 162

A

typically becomes apparent in 1st decade

Answer 163

A

bilateral

Answer 164

A

asymptomatic

- blurred vision

Answer 165

A

refractile white dots that coalesce into linear opacities; described as “glass like” (broken glass appearance); initially in anterior stroma centrally; progress to deeper stroma sparing the periphery
intervening stroma becomes cloudy

Answer 166

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 167

A

hyaline-like deposits accumulate between the epithelial basement membrane and Bowman’s layer as well as in stroma; stain red with Masson’s trichrome stain

Answer 168

A

genetic abnormality

Answer 169

A

typically becomes apparent in 1st decade

Answer 170

A

bilateral

Answer 171

A

asymptomatic

- blurred vision

Answer 172

A

discrete gray-white crumb-like opacities separated by clear stroma; resemble sugar granules or bread crumbs; initially in anterior to mid stroma centrally; progress to deeper stroma sparing the periphery

Answer 173

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 174

A

hyaline-like and amyloid deposits accumulate between the epithelial basement membrane and Bowman’s layer as well as in stroma; stain red with Masson’s trichrome and Congo red stains

Answer 175

A

genetic abnormality

Answer 176

A

typically becomes apparent during teenage years

Answer 177

A

bilateral

Answer 178

A

asymptomatic

- blurred vision

Answer 179

A

discrete gray-white crumb-like opacities separated by clear stroma combined with deeper linear opacities (sugar granules and broken glass)

Answer 180

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 181

A

GAGs accumulate within epithelium, Bowman’s layer, stroma, Descemet’s, endothelium; stain blue with Alcian blue

Answer 182

A

genetic abnormality

Answer 183

A

typically becomes apparent during 1st decade

Answer 184

A

bilateral

Answer 185

A

blurred vision

Answer 186

A

gray-white crumb-like opacities with stromal haze between deposits; initially in anterior stroma centrally; progress to deeper stroma extending limbus to limbus

Answer 187

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty
treat RCE

Answer 188

A

phospholipids and cholesterol accumulate within basal epithelial cells, Bowman’s layer, and stroma; stain with Oil-Red-O and Sudan Black stains

Answer 189

A

genetic abnormality

Answer 190

A

typically becomes apparent during teenage years to 20s

Answer 191

A

bilateral

Answer 192

A

blurred vision

Answer 193

A

ring or disc-like central opacities with or without crystalline opacities; initially in anterior stroma centrally; progress to deeper stroma sparing the periphery
prominent arcus senilis; progresses centrally leading to a diffuse haze

Answer 194

A

monitor (slit lamp exam, photos)
topical lubrication (for prophylaxis of RCE)
if significant decrease in vision, refer for keratoplasty or superficial keratectomy
order lipid profile (has been linked with hypercholesterolemia and hyperlipidemia in some patients)

Answer 195

A

congenital focal or diffuse thickening of Descemet’s membrane endothelial degeneration

Answer 196

A

genetic abnormality

Answer 197

A

present at birth

Answer 198

A

bilateral

Answer 199

A

blurred vision

Answer 200

A

stromal edema

Answer 201

A

monitor (slit lamp exam, photos)

- if decreased vision, refer for keratoplasty

Answer 202

A

opacities within the corneal epithelium (unknown composition)

Answer 203

A

idiopathic

Answer 204

A

typically presents between the ages of 20-30

Answer 205

A

bilateral

Answer 206

A

ocular irritation
photophobia with tearing
mild decreased vision

Answer 207

A

multiple small, gray-white corneal epithelial opacities; often central; slightly elevated; stain lightly with fluorescein
minimal to no conjunctival injection, corneal edema, or AC rxn

Answer 208

A

self-limiting within 1-2 months (typically resolves completely with no scarring)
aggressive topical lubrication for mild symptoms
topical steroid for moderate to severe symptoms
Restasis, Xiidra, or tacrolimus may be an alternative or adjunctive treatment to a steroid
BCL for comfort

Answer 209

A

10-20 years

Answer 210

A

linear band of calcium that deposits at the level of Bowman’s layer and anterior stroma

Answer 211

A

unknown etiology
most commonly develops following chronic ocular disease (e.g., uveitis, corneal edema, dry eye, exposure keratopathy, glaucoma, phtisis bulbi), trauma, and ocular surgery (esp. retinal detachment repair with silicone oil)
less commonly associated with hypercalcemia, hyperphosphatemia, gout, corneal dystrophy, myotonic dystrophy, long-term exposure to irritants (e.g., mercury fumes)
may be congenital

Answer 212

A

depends on etiology

Answer 213

A

unilateral or bilateral

Answer 214

A

asymptomatic
grittiness/FBS
decreased vision
corneal whitening

Answer 215

A

white linear plaque of calcium at the level of Bowman’s layer and anterior stroma; commonly has a swiss cheese appearance; typically within the interpalpebral fissure; separated from the limbus by a clear zone

Answer 216

A

treat the underlying condition
mild symptoms (i.e., FBS): aggressive topical lubrication, BCL for comfort
moderate to severe (i.e., irritation not relieved by lubricants, obstructing vision): refer for chelation using disodium ethylenediamine tetraacetic acid (EDTA)

Answer 217

A

superficial corneal nodules composed of hyaline deposition between corneal epithelium and Bowman’s layer or beyond into stroma

Answer 218

A

unknown etiology
most commonly develops following chronic ocular surface disease (e.g., MGD, pterygium, dry eye, exposure keratopathy, prior corneal surgery)
may also be idiopathic

Answer 219

A

typically occurs between ages of 45-65

- women > men

Answer 220

A

asymptomatic
FBS
blurred vision

Answer 221

A

elevated, smooth gray or blue-gray nodules anterior to Bowman’s layer; may extend into stroma; usually midperipheral; single or multiple; base may be surrounded by epithelial iron deposits
irregular astigmatism

Answer 222

A

treat the underlying condition
correct the refractive error; topography can show associated astigmatism within the visual axis
if significant discomfort or reduced vision due to progressive increase in astigmatic error, refer for superficial keratectomy or keratoplasty

Answer 223

A

corneal drying due to prolonged exposure

Answer 224

A

lagophthalmos (incomplete eyelid closure)

- incomplete blink

Answer 225

A

no predilection

Answer 226

A

unilateral or bilateral

Answer 227

A

ocular redness
ocular irritation (e.g., burning, FBS, pain)
tearing
blurred vision

Answer 228

A

inadequate blinking or closure of the eyelids
conjunctival injection
conjunctival staining with Lissamine green and Rose bengal; inferior 1/3 or in the interpalpebral region
superficial punctate keratitis (SPK); inferior 1/3 or as a horizontal band in the interpalpebral region
corneal epithelial breakdown; typically inferior
corneal stromal melt; typically inferior

Answer 229

A

treat the underlying condition
aggressive topical lubrication
eyelid taping or patching qhs in addition to topical lubrication
punctal plugs in addition to topical lubrication
BCL or scleral contact lens
topical antibiotic for epithelial defects
amniotic membrane in addition to topical antibiotic for non-healing corneal epithelial defects
if significant stromal thinning occurs, limit the risk of corneal perforation by treating with ascorbic acid (promotes collagen synthesis) and citric acid or a tetracycline (inhibits collagenolysis); also discuss eye protection
if medical therapy fails, refer for surgery

Answer 230

A

microbial keratitis

- corneal perforation

Answer 231

A

exacerbate any corneal issue (neurotrophic keratopathy);
wound healing, the blink reflex, and tear production and secretion;
HSV and HZO keratitis, CL wear, refractive surgery, keratoplasty, diabetic neuropathy, chemical injury stroke

Answer 232

A

represents a spectrum of 3 diseases linked by a fundamental defect of corneal endothelium and variable iris abnormalities:

progressive iris atrophy (essential iris atrophy)
Chandler’s syndrome
Cogan-Reese syndrome (iris nevus syndrome)

Answer 233

A

unknown etiology

Answer 234

A

typically occurs between the ages of 20-50

- women > men

Answer 235

A

unilateral

Answer 236

A

asymptomatic
blurred vision, worse in the morning
may note an irregular pupil or iris appearance
monocular diplopia

Answer 237

A

corneal endothelial changes (loss of endothelial mosaic similar to Fuch’s dystrophy); fine, beaten metal appearance
variable corneal edema; more severe in Chandler syndrome
iris abnormalities; progressive iris atrophy: marked iris thinning leading to iris atrophy, holes and corectopia (displacement of the pupil); Chandler’s syndrome: mild iris thinning and corectopia; Cogan-Reese syndrome: fine, pigmented nodules on the iris surface, ectropio uveae, and variable iris atrophy

Answer 238

A

to treat corneal edema: hypertonic saline, use of hairdryer in morning
if severe endothelial dysfunction and cornea edema does not clear, refer for keratoplasty
if glaucoma develops, treatment is similar to POAG; IOP lowering drops may improve corneal edema

Answer 239

A

secondary open angle glaucoma; corneal endothelial cells may migrate over the TM and impair aqueous outflow
secondary closed angle glaucoma; corneal endothelial cells may migrate over the anterior iris and form peripheral anterior synechiae (which then contract and close the angle)

Answer 240

A

Chandler syndrome;
unilateral;
in the asymptomatic fellow eye

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2: Cornea Flashcards

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