Clinical Evaluation
Risk Factors
Superficial foreign bodies often occur due to exposure to dust, debris, or other particles.
Conjunctival foreign bodies are common and can be successfully removed using suitable methods. Wearing protective eyewear, particularly in environments prone to debris, can effectively prevent superficial ocular foreign bodies.
Factors contributing to the risk of IOFBs include engagement in metal tasks, lack of eye protection, and being male.3 Importantly, IOFBs can penetrate the posterior segment of the eye.
Signs
- Presence of a foreign body adherent to the ocular surface
- Linear corneal scratches, particularly common with sub-tarsal foreign bodies
- Corneal rust ring formation indicative of an embedded ferrous foreign body
- Surrounding ring of oedema and infiltrate if the foreign body has been present for an extended duration
- Possible presence of subconjunctival haemorrhage
Symptoms
- Typically affects one eye
- Foreign body sensation
- Watering
- Pain
- Photophobia
- Blurred vision
- Red eye
- Flashes or floaters
- Some patients may have no apparent symptoms
Foreign bodies are often described as grit, debris, sand, or glass. Patients may have difficulty identifying the precise location of this sensation. Any discomfort is usually heightened during blinking, particularly when the foreign body is located on the inner conjunctival surface of the upper lid.
Differential Diagnoses
When faced with a patient with a painful red eye and a foreign body sensation clinicians may also wish to consider other potential causes:4
- Corneal abrasion or laceration
- Globe perforation or rupture
- Intraocular foreign body
- Retinal or vitreous issues like detachment or haemorrhage
- Uveitis
- Iritis
- Endophthalmitis
- Ultraviolet keratitis
- Exposure-related issues
- Chemical injuries
- Infectious causes such as corneal ulcers, herpes zoster ophthalmicus, herpes simplex keratoconjunctivitis, or other viral or bacterial conjunctivitis
Investigations
Clinicians should consider the possibility of a foreign body if a patient complains of feeling something in their eye. A detailed history is a good starting point to help guide the clinician followed by an assessment of vision/ visual acuity for medico legal reasons. Next the clinician may conduct a thorough slit lamp examination with fluorescein helping to aid visibility.
To check for foreign bodies in the eye clinicians could consider some or all the following:
- Examine the bulbar conjunctiva overlying the sclera
- Patient to look up, down, left, and right, and the clinician looks for any redness indicating a conjunctival foreign body
- Subsequently, inspect the inferior conjunctival fornix by having the patient look up while pulling down the lower lid
- When it comes to the upper conjunctiva, clinicians may wish to perform upper lid eversion to examine the conjunctival surface inside the upper lid
When dealing with a corneal foreign body, a comprehensive history does help to guide the clinician provide appropriate care for their patients. Clinicians may consider asking questions about the type, timing, location, and circumstances of the incident. The material involved matters; for instance, iron can lead to a rust ring within hours. Understanding the injury mechanism can help the clinician to assess force, potential corneal perforation, and the possibility of extra tests such as ultrasound or CT scans. Tetanus prophylaxis may be necessary.
In intraocular foreign body (IOFB) injuries, again a detailed history should be considered to understand the foreign body’s type, material, and the injury mechanism.5 Clinicians may ask whether the injury is unilateral or bilateral as explosives and firearms often lead to bilateral ocular damage with multiple foreign bodies.
When examining a patient for potential penetrating ocular injuries clinicians may consider carrying out the following checks:
- Visual acuity
- Pupillary responses, pupil shape, afferent pupillary defect, or anisocoria
- If a ruptured globe is suspected, pressure-inducing techniques like applanation tonometry are generally avoided
- Examination of eyebrows/lids to check for
- Lacerations
- Canalicular injury
- Small foreign bodies
- A full slit lamp examination helps identify
- Scleral or corneal entry sites
- Iris abnormalities
- Potential uveal tissue prolapse
- Gonioscopy may be employed cautiously to assess the angles
- Dilated fundus examination aids in posterior segment IOFB detection, paying attention to the peripheral retina
To fully localise IOFBs,6 further imaging techniques may be employed:
- Historically, standard X-rays were used, but they are limited to radio-opaque foreign bodies
- Metal locators, such as Berman, Roper-Hall, and Bronson-Turner, offer another method
- Computerised tomography (CT) is the preferred imaging modality, providing detailed information on size, shape, and location
- MRI should be avoided for metallic IOFBs due to the risk of dislodgement
- Ultrasound may be useful, especially in open globe injuries, assisting in IOFB localisation and assessing intraocular damage
- Ultrasonography, coupled with gonioscopy or ultrasound biomicroscopy, is valuable in challenging cases, but the clinician should take care to avoid intraocular content expulsion7
Other considerations for the clinician to bear in mind when interpreting a clinical history include:
- High velocity particles – risk of globe penetration
- Metallic (ferrous) – rust ring (haemosiderosis)
- Vegetative – risk of fungal infection
