Caustic keratoconjunctivitis

Background

• Chemical burn to eye
• Alkali injuries are more severe than acidic injuries, and are considered an ophthalmologic emergency
• Prognosis is determined by the extent of injury at the limbus and area/depth of injury to cornea

Caustics

• Substances that cause damage on contact with body surfaces
• Degree of injury determined by pH, concentration, volume, duration of contact
• Acidic agents cause coagulative necrosis
• Alkaline agents cause liquefactive necrosis (considered more damaging to most tissues)
• Corrosive agents have reducing, oxidising, denaturing or defatting potential

Alkalis

• Accepts protons → free hydroxide ion, which easily penetrates tissue → cellular destruction
  • Liquefactive necrosis and protein disruption may allow for deep penetration into surrounding tissues
• Examples
  • Sodium hydroxide (NaOH), potassium hydroxide (KOH), ammonia (NH3)
  • Found in: bleach, drain openers, oven cleaners, toilet cleaner, hair relaxers

Acids

• Proton donor → free hydrogen ion → cell death and eschar formation, which limits deeper involvement
  • However, due to pylorospasm and pooling of acid, high-grade gastric injuries are common
    • Mortality rate is higher compared to strong alkali ingestions
• Can be systemically absorbed and → metabolic acidosis, hemolysis, AKI
• Examples
  • Hydrochloric acid (HCl), hydrofluoric acid (HF), Sulfuric acid (H2SO4)
  • Found in: auto batteries, drain openers, metal cleaners, swimming pool products, rust remover, nail primer

Clinical Features

• Severe ocular pain, blepharospasm, reduced visual acuity
• Elevated IOP may be seen in alkali injury^[1]
• Altered ocular pH (normal = 7.0-7.2)
• Appearance
  • Conjunctival injection OR blnnching
  • Chemosis, hemorrhage, epithelial defects
  • Corneal loss OR edema
• Perilimbal ischemia (white ring around iris)
  • Concerning due to co-location of corneal stem cell layer (re-epitheliazation relies on migration of limbal stem cells)

Roper-Hall classification^[2]

Differential Diagnosis

Caustic Burns

• Caustic ingestion
• Caustic eye exposure (Caustic keratoconjunctivitis)
• Caustic dermal burn
• Airbag-related burns
• Hydrofluoric acid
• Tar burn
• Cement burn

Conjunctivitis Types

• Viral conjunctivitis
  • Epidemic keratoconjunctivitis
  • Herpes zoster ophthalmicus
  • Herpes simplex keratitis
• Bacterial conjunctivitis
  • Gonorrheal conjunctivitis
  • Chlamydia conjunctivitis
• Allergic conjunctivitis
• Caustic keratoconjunctivitis

Unilateral Red Eye

• Acute angle-closure glaucoma^
• Anterior uveitis
• Caustic keratoconjunctivitis^^
• Conjunctival laceration
• Conjunctivitis
• Corneal abrasion
• Corneal erosion
• Ocular foreign body
• Corneal ulcer^
• Endophthalmitis^
• Episcleritis
• Globe rupture^
• Herpes zoster ophthalmicus
• Intraocular foreign body
• Inflamed pingueculum
• Inflamed Pterygium
• Keratoconjunctivitis
• Keratoconus
• Lens dislocation
• Nontraumatic iritis
• Scleritis^
• Subconjunctival hemorrhage
• Traumatic hyphema
• Traumatic iritis
• Ultraviolet keratitis

^Emergent diagnoses

^^Critical diagnoses

Evaluation

• Generally a clinical diagnosis

Management

• Irrigation
  • Immediate irrigation is the most important treatment for caustic ocular injury, and should be started before comprehensive evaluation
  • Irrigate affected eye(s) with copious amounts of fluid (no consensus on volume or length of time)^[3]
  • NS, LR, or BSS (Buffered Saline Solution) preferred in the hospital setting^[4], but tap water is acceptable, especially in pre-hospital setting.
  • Goal is to remove caustic agent and restore normal ocular pH (7.0-7.2)
  • Do NOT attempt to neutralize pH by adding base to an acidic burn or acid to an alkali burn
  • Use of morgan lens or eyelid speculum will assist with getting more fluid in contact with cornea
• Remove particulate matter
  • Evert both lids, remove any visible particulate matter with cotton-tipped applicator
• Anesthesia
  • Topical anesthetic (e.g. tetracaine) to help with discomfort.
  • Other options include cycloplegics (e.g. atropine, cyclopentolate), IV/IM/PO analgesics
• Antibiotics
  • Erythromycin ophthalmic ointment QID for minor burns
  • Topical fluoroquinolone for more severe burns
• Control inflammation
  • Topical steroids - prednisolone 1% ophthalmic QID for 1 week^[5]
  • Limit topical steroid use to 10 days to avoid corneal breakdown.^[6]
• Ophtho consultation for all but minor burns (Severe exposures may require debridement or other surgical intervention)

Disposition

• Admit for:
  • Pediatric patient
  • Corneal haziness, opacity, or limbal ischemia (paleness at limbus)
• Discharge with 24hr ophthalmology follow-up if only has corneal epithelial injury
  • Encourage use of artificial tears and other lubricating eyedrops

See Also

• Eye Algorithms (Main)
• Caustic burns

References

1. ↑ Lin, M.P., et al., Glaucoma in patients with ocular chemical burns. American journal of ophthalmology, 2012. 154(3): p. 481-485 e1.
2. ↑ Gupta N et al. Comparison of Prognostic Value of Roper Hall and Dua Classification Systems in Acute Ocular Burns. Br J Ophthalmol. 2011;95(2):194-198. http://www.medscape.com/viewarticle/739100.
3. ↑ Chau JP, Lee DT, Lo SH. A systematic review of methods of eye irrigation for adults and children with ocular chemical burns. Worldviews Evid Based Nurs. 2012 Aug;9(3):129-38.
4. ↑ Herr RD, White GL Jr, Bernhisel K, Mamalis N, Swanson E. Clinical comparison of ocular irrigation fluids following chemical injury. Am J Emerg Med. 1991 May;9(3):228-31.
5. ↑ Dohlman, C.H., F. Cade, and R. Pfister, Chemical burns to the eye: paradigm shifts in treatment. Cornea, 2011. 30(6): p. 613-4.
6. ↑ Donshik, P.C., et al., Effect of topical corticosteroids on ulceration in alkali-burned corneas. Archives of ophthalmology, 1978. 96(11): p. 2117-20.