Corneal Foreign Body

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Background

Corneal foreign body is foreign material on or in the cornea, usually metal, glass, or organic material.

Pathophysiology

Corneal foreign bodies generally fall under the category of minor ocular trauma. Small particles may become lodged in the corneal epithelium or stroma, particularly when projected toward the eye with considerable force.

The foreign object may set off an inflammatory cascade, resulting in dilation of the surrounding vessels and subsequent edema of the lids, conjunctiva, and cornea. White blood cells also may be liberated, resulting in an anterior chamber reaction and/or corneal infiltration. If not removed, a foreign body can cause infection and/or tissue necrosis.

Epidemiology

Frequency

United States

Foreign bodies are one of the most frequent causes of visits for ophthalmic emergencies. Sometimes, the foreign body may not be present at the time of examination, having left the residual corneal abrasion with resultant pain.

Superficial corneal foreign bodies are much more common than deeply embedded corneal foreign bodies. The possibility of an intraocular foreign body must always be considered when a patient presents with a history of trauma.

In major league baseball, 33% of all eye injuries are corneal abrasions; in the National Basketball Association, corneal abrasions account for 12% of all eye traumas.

International

No difference in frequency is observed internationally.

Mortality/Morbidity

Generally, superficial foreign bodies that are removed soon after the injury leave no permanent sequelae. However, corneal scarring or infection may occur. The longer the time interval between the injury and treatment, the greater the likelihood of complications.

If the foreign body fully penetrates into the anterior or posterior chambers, then it is officially an intraocular foreign body. In this case, eye morbidity is much more common. Damage to the iris, lens, and retina can occur and severely damage vision. Any intraocular foreign body can lead to infection and endophthalmitis, a serious condition possibly leading to loss of the eye.

Sex

Similar to other traumatic injuries, the incidence in males is much higher than in females.

Age

Similar to most other traumatic injuries, the peak incidence is found in the second decade and generally occurs in people younger than 40 years.

Prognosis

Good prognosis exists unless a rust ring or scarring involves the visual axis. If infection develops, prognosis is more guarded. Globe penetrating injuries and intraocular foreign bodies are separate categories and have much worse prognoses.

Patient Education

Remind patients of the importance of wearing protective eyewear in any high-risk situation.

Eyes should not be rubbed while working with wood or metal pieces.

If a foreign body enters the eye, the eye should not be rubbed and no attempt should be made by the patient to remove the foreign body.

For excellent patient education resources, visit eMedicineHealth's Eye and Vision Center. Also, see eMedicineHealth's patient education articles Eye Injuries and Foreign Body, Eye.

History

The activities of the patient and their surroundings are important. The time and the place of the injury, along with exactly how it occurred, are important. For example, a patient who was working with a high-speed grinding machine is likely to have an intraocular foreign body that may be occult in nature, whereas a patient who was working underneath a car when rust fell gently on the eye is likely to have only an external injury.

Patients may complain of the following:

Physical

Patients may present with the following:

The patients may be asymptomatic if the foreign body is below the epithelial or conjunctival surface. Over a period of a few days, epithelium often grows over small corneal foreign bodies, with a resultant reduction in pain.

If a corneal infiltrate is present, an infectious cause needs to be considered. Foreign bodies can cause a small sterile inflammatory reaction around the foreign object. However, if a large infiltrate, any corneal ulceration, a significant anterior chamber reaction, or significant pain is present, it should be managed as an infection. See Keratitis, Bacterial.

Causes

Corneal foreign body injury can occur just about anywhere. They commonly occur both at home and at work.

Generally, the cause is accidental trauma. The type of trauma helps to determine the likelihood of a superficial versus a deep or even intraocular foreign body.

Materials include small pieces of wood, metal, plastic, or sand.

The injury usually occurs in windy weather or when working with power tools. Dirt, sand, or small portions of leaves frequently are blown into the eye and adhere to the superficial cornea.

Complications

Rust ring usually is due to an iron foreign body and can be removed carefully at a slit lamp using a burr.

Infectious keratitis is common in organic injuries and in neglected cases. It may need to be scraped for smears and cultures. It needs to be treated aggressively with topical antibiotics. If ulceration is unresponsive to antibiotics, consider using riboflavin cross-linking as one study has suggested.[1]

Globe perforation occurs in metal-on-metal and similar high-speed type injuries. It also can occur if a corneal ulcer is neglected. It requires surgical repair.

Laboratory Studies

Unless an infectious corneal infiltrate/ulcer or an intraocular foreign body is suspected, no laboratory work is indicated.

Infectious corneal infiltrates/ulcers generally require scrapings for smears and cultures.

Imaging Studies

To exclude intraocular or intraorbital foreign body, consider B-scan ultrasound, orbital CT scan (1-mm axial and coronal cuts), and/or ultrasound biomicroscopy (UBM). If the foreign body is metallic, the initial study may include orbital x-ray films. If plain films are negative and a high suspicion still exists for intraocular foreign body, the previously mentioned studies are indicated. These studies should be complemented by a full-dilated examination by an ophthalmologist.

Avoid MRI if a possible history of metallic foreign body exists.

UBM, with high-frequency ultrasound, is often useful to rule out a foreign body embedded in the anterior sclera. These foreign bodies may not be visible because of their nature (eg, glass) or overlying opacity (eg, conjunctival hemorrhage).

Laser in vivo confocal microscopy (IVCO) is particularly sensitive and useful in the diagnosis of hidden corneal foreign bodies.[2]

Other Tests

A Seidel test is performed to rule out corneal perforation in the setting of a deep corneal foreign body.

The lower and upper lids need to be everted to look for additional foreign bodies. If a superficial foreign body is suspected but not found, double eversion of the upper lid to search for a foreign body is required.

Procedures

Corneal foreign bodies are removed using a sterile foreign body spud or needle after topical anesthesia. Antibiotic is applied to the eye before and after the removal. Cotton-tipped applicators often are not appropriate because of the large surface area of cotton that touches the cornea, potentially creating a large epithelial defect. Because of the risk of corneal scarring and inadvertent globe perforation, this procedure should be completed using a slit lamp biomicroscope and performed by a clinician who is well trained and experienced in corneal foreign body removal.

Rust rings that remain in the cornea after removal of a metallic foreign body may require removal with a rust ring drill. This procedure also should be performed using a slit lamp biomicroscope by a clinician who is well trained and experienced in rust ring removal because of the risk of corneal scarring and inadvertent globe perforation.

Medical Care

Management objectives include relieving pain, avoiding infection, and preventing permanent loss of function.

Topical antibiotic drops (eg, polymyxin B sulfate-trimethoprim [Polytrim], ofloxacin [Ocuflox], tobramycin [Tobrex] qid) or ointment (eg, bacitracin [AK-Tracin], ciprofloxacin [Ciloxan] qid) should be prescribed until the epithelial defect heals to prevent infection.

Topical cycloplegic (cyclopentolate 1% qd/bid) can be considered for pain and photophobia, although a review of the literature shows that they are not effective.[3, 4]

Pressure patch or bandage contact lens is best avoided (unless the epithelial defect is >10 mm2 and then bandage contact lens may be the better option).[3, 5, 6] The following scenarios represent high risk for the patient to develop permanent vision loss. Do not patch if any of the following are present:

Surgical Care

Remove the foreign body using irrigation, a sterile needle, or a foreign body removal instrument. Do not remove if likelihood of penetration through more than 25% of the cornea exists.

Remove a rust ring with an Alger brush or automated burr. Only those clinicians who are trained in and regularly perform this procedure should complete it.

Foreign bodies that present any potential for intraocular penetration must by explored in the operating room. These injuries should be explored within 24 hours of initial examination.

Consultations

Immediately refer to an ophthalmologist in case of the following:

Prevention

Wear safety goggles in any situation (eg, sports, construction, workshops, industry) that has a high risk of particles or objects flying into the eyes.

Long-Term Monitoring

Follow up every 2 days until the epithelial defect is well healed and any corneal infiltrates have resolved.

Perform a gonioscopy after the resolution of the problem, and consider annual follow-up care for intraocular pressure if the severity of trauma raises a suspicion for angle-recession glaucoma in later life.

A dilated fundus examination should be performed on a routine basis after any injury severe enough to potentially damage the retina.

Medication Summary

An uncomplicated case in which the foreign body is removed can be treated with standard antibiotics. If a large epithelial defect is present, an antibiotic ointment is placed prior to the use of a patch. Complicated cases should be seen by an ophthalmologist immediately and prior to any therapy. For example, if an infiltrate is present, the ophthalmologist may want to scrape and plate the lesion before any antibiotic is instilled in the eye.

Trimethoprim/polymyxin B ophthalmic (Polytrim Ophthalmic Solution)

Clinical Context:  For ocular infections, involving cornea or conjunctiva, resulting from strains of microorganisms susceptible to this antibiotic. Available as a solution and ointment. Trimethoprim and polymyxin B are rarely sensitizing, and they have a wide spectrum of action in combination.

Gram-positive: S aureus, S epidermidis,Streptococcus species (group A beta-hemolytic and nonhemolytic), S pneumoniae

Gram-negative: P aeruginosa, H influenzae, H aegyptius, E coli, K pneumoniae, P mirabilis (indole-positive), Proteus species (indole-negative), E aerogenes, C freundii, C diversus, A calcoaceticus, M lacunata (some strains), S marcescens

Tobramycin ophthalmic (Tobrex)

Clinical Context:  Like other aminoglycosides, the bactericidal activity of tobramycin is accomplished by specific inhibition of normal protein synthesis in susceptible bacteria, but very little presently is known about this action. May inhibit bacterial mRNA synthesis, causing inhibition of bacterial growth.

Ofloxacin ophthalmic (Floxin)

Clinical Context:  Pyridine carboxylic acid derivative with broad-spectrum bactericidal effect.

Ciprofloxacin ophthalmic (Ciloxan)

Clinical Context:  Inhibits bacterial growth by inhibiting DNA gyrase.

Bacitracin ophthalmic (AK-Tracin, Baciguent)

Clinical Context:  Prevents transfer of mucopeptides into growing cell wall, inhibiting bacterial growth.

Gatifloxacin ophthalmic (Zymar)

Clinical Context:  Fourth-generation fluoroquinolone ophthalmic indicated for bacterial conjunctivitis. Elicits a dual mechanism of action by possessing an 8-methoxy group, thereby inhibiting the enzymes DNA gyrase and topoisomerase IV. DNA gyrase is involved in bacterial DNA replication, transcription, and repair. Topoisomerase IV is essential in chromosomal DNA partitioning during bacterial cell division. Indicated for bacterial conjunctivitis due to Corynebacterium propinquum, S aureus, Staphylococcus epidermidis, Streptococcus mitis, S pneumoniae, or H influenzae.

Class Summary

Prevent infection of an open corneal abrasion.

Cyclopentolate HCl 0.5-1% (Cyclogyl)

Clinical Context:  Cyclopentolate is an anticholinergic agent that induces relaxation of the sphincter of the iris and ciliary muscles. When applied topically to the eyes, it causes rapid, intense cycloplegic and mydriatic effects that reach a peak in 15-60 min; recovery usually occurs within 24 h. The cycloplegic and mydriatic effects are slower in onset and longer in duration in patients who have dark pigmented irises.

Class Summary

For comfort of the eye and to prevent iris adhesion in cases of traumatic iritis.

Author

Mounir Bashour, MD, PhD, CM, FRCSC, FACS, Assistant Professor of Ophthalmology, McGill University Faculty of Medicine; Clinical Assistant Professor of Ophthalmology, Sherbrooke University; Medical Director, Cornea Laser and Lasik MD

Disclosure: Nothing to disclose.

Specialty Editors

Simon K Law, MD, PharmD, Clinical Professor of Health Sciences, Department of Ophthalmology, Jules Stein Eye Institute, University of California, Los Angeles, David Geffen School of Medicine

Disclosure: Nothing to disclose.

Christopher J Rapuano, MD, Professor, Department of Ophthalmology, Sidney Kimmel Medical College of Thomas Jefferson University; Director of the Cornea Service, Co-Director of Refractive Surgery Department, Wills Eye Hospital

Disclosure: Serve(d) as a director, officer, partner, employee, advisor, consultant or trustee for: Cornea Society, AAO, OMIC, Avedro; Bio-Tissue; GSK, Kala, Novartis; Shire; Sun Ophthalmics; TearLab<br/>Serve(d) as a speaker or a member of a speakers bureau for: Avedro; Bio-Tissue; Shire<br/>Received income in an amount equal to or greater than $250 from: AAO, OMIC, Avedro; Bio-Tissue; GSK, Kala, Novartis; Shire; Sun Ophthalmics; TearLab.

Chief Editor

Hampton Roy, Sr, MD, Associate Clinical Professor, Department of Ophthalmology, University of Arkansas for Medical Sciences

Disclosure: Nothing to disclose.

Additional Contributors

Kilbourn Gordon, III, MD, FACEP, Urgent Care Physician

Disclosure: Nothing to disclose.

References

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