Conjunctiva and Sclera




Trauma


Foreign Body


Exogenous material on, under, or embedded within the conjunctiva or sclera; commonly dirt, glass, metal, or cilia. Patients usually note foreign body sensation and redness; may have corneal staining, particularly linear vertical scratches due to blinking with a foreign body trapped on the upper tarsal surface. Good prognosis.




  • Remove foreign body; evert lids to check tarsal conjunctiva.



  • Topical broad-spectrum antibiotic (polymyxin B sulfate-trimethoprim [Polytrim] drops or bacitracin ointment qid).



Laceration


Partial-thickness or full-thickness cut in conjunctiva with or without partial-thickness cut in the sclera; very important to rule out open globe (see below); good prognosis.




  • Seidel test for suspected open globe (see below).



  • Topical broad-spectrum antibiotic (gatifloxacin [Zymar] or moxifloxacin [Vigamox] qid).



  • Conjunctival and partial-thickness scleral lacerations rarely require surgical repair.



Open Globe


Full-thickness defect in eye wall (cornea or sclera), commonly from penetrating or blunt trauma; the latter usually causes rupture at the limbus, just posterior to the rectus muscle insertions, or at previous surgical incision sites; double penetrating injuries are called perforations; an open globe may also be due to corneal or scleral melting.


Associated signs include lid and orbital trauma, corneal abrasion or laceration, wound dehiscence, positive Seidel test (see Laceration section in Chapter 5 ), low intraocular pressure, flat or shallow anterior chamber, anterior chamber cells and flare, hyphema, peaked pupil, iris


Figure 4-1


(A) Conjunctival foreign body, demonstrating a fragment of corn husk embedded in the conjunctiva. (B) Conjunctival foreign body, demonstrating a grasshopper leg embedded in the conjunctiva. (C) Same patient as in (B), demonstrating multiple vertical corneal abrasions from a grasshopper leg in the superior tarsal conjunctiva. Such a pattern of linear abrasions suggests a foreign body under the upper eyelid, and therefore the examiner should always evert the eyelid to inspect for this.







Figure 4-2


Conjunctival laceration with gaping edges.


transillumination defect, sphincter tears, angle recession, iridodialysis, cyclodialysis, iridodonesis, phacodonesis, dislocated lens, cataract, vitreous and retinal hemorrhage, commotio retinae, retinal tear, retinal detachment, choroidal rupture, intraocular foreign body or gas bubbles, and extruded intraocular contents. Guarded prognosis.
Figure 4-3


Full-thickness corneoscleral limbal laceration with wound gape. Note discontinuity of slit-beam as it crosses the wound edge (arrowhead).



Figure 4-4


Penetrating injury with foreign body (nail) protruding from globe.



Figure 4-5


Open globe. There is a temporal full-thickness scleral laceration with uveal prolapse. Also note the extensive subconjunctival hemorrhage and upper and lower eyelid lacerations.




OPHTHALMIC EMERGENCY





  • Admit for surgical exploration and repair; protect eye with metal eye shield; minimize ocular manipulations; examine globe only enough to verify the diagnosis of an open globe; remainder of examination and exploration should be performed in the operating room. Postoperatively, start antibiotics and steroids.



  • Consider B-scan ultrasonography if unable to visualize the fundus.



  • Consider orbital computed tomography (CT) scan or orbital radiographs to rule out intraocular foreign body; magnetic resonance imaging (MRI) is contraindicated if foreign body is metallic.



  • Subconjunctival antibiotics and steroids:




    • Vancomycin (25 mg).



    • Ceftazidime (50–100 mg) or gentamicin (20 mg).



    • Dexamethasone (12–24 mg).




  • Topical fortified antibiotics (alternate every 30 minutes):




    • Vancomycin (25–50 mg / mL q1h).



    • Ceftazidime (50 mg / mL q1h).




  • Topical steroid (prednisolone acetate 1% q1–2 h initially) and cycloplegic (scopolamine 0.25% or atropine 1% tid).



  • Systemic intravenous antibiotics for marked inflammation or severe cases:




    • Vancomycin (1 g IV q12h).



    • Ceftazidime (1 g IV q12h).




  • Small corneal lacerations (< 2 mm) that are self-sealing or intermittently Seidel positive may be treated with a bandage contact lens, topical broad-spectrum antibiotic (gatifloxacin [Zymaxid] or moxifloxacin [Vigamox] q2h to q6h), cycloplegic (cyclopentolate 1% bid), and an aqueous suppressant (timolol maleate [Timoptic] 0.5% or brimonidine [Alphagan-P] 0.15% bid); observe daily for 5–7 days; consider suturing laceration if wound has not sealed after 1 week.




Subconjunctival Hemorrhage


Diffuse or focal area of blood under the conjunctiva. Appears bright red, otherwise asymptomatic. May be idiopathic, associated with trauma, sneezing, coughing, straining, emesis, aspirin or anticoagulant use, or hypertension, or due to an abnormal conjunctival vessel. Excellent prognosis.




  • Reassurance if no other ocular findings.



  • Consider blood pressure measurement if recurrent.



  • Medical or hematology consultation for recurrent, idiopathic, subconjunctival hemorrhages, or other evidence of systemic bleeding (ecchymoses, epistaxis, gastrointestinal bleeding, hematuria, etc.).


Figure 4-6


Subconjunctival hemorrhage demonstrating bright red blood under the conjunctiva. As the hemorrhage resorbs, the edges may spread, become feathery, and turn yellowish (arrowhead).






Telangiectasia


Definition


Abnormal, dilated conjunctival capillary formation.


Symptoms


Asymptomatic red spot on eye; patient may have epistaxis and gastrointestinal bleeding depending on etiology.


Signs


Telangiectasia of conjunctival vessels, subconjunctival hemorrhage.


Figure 4-7


Conjunctival telangiectasia appearing as dot-like, corkscrew, irregular vessels near the limbus.




Differential Diagnosis


Idiopathic, Osler–Weber–Rendu syndrome, ataxia–telangiectasia, Fabry’s disease, Sturge–Weber syndrome.


Evaluation





  • Complete ophthalmic history and eye exam with attention to conjunctiva, cornea, lens, and ophthalmoscopy.



  • Consider CT scan for multisystem disorders.



  • Medical consultation to rule out systemic disease.



Management





  • No treatment recommended.




Prognosis


Usually benign; may bleed; depends on etiology.




Microaneurysm


Definition


Focal dilation of conjunctival vessel.


Symptoms


Asymptomatic; may notice red spot on eye.


Signs


Microaneurysm; may have associated retinal findings.


Differential Diagnosis


Diabetes mellitus, hypertension, sickle cell anemia (Paton’s sign), arteriosclerosis, carotid occlusion, fucosidosis, polycythemia vera.


Evaluation





  • Complete ophthalmic history and eye exam with attention to conjunctiva and ophthalmoscopy.



  • Check blood pressure.



  • Lab tests : Fasting blood glucose (diabetes mellitus), sickle cell prep, hemoglobin electrophoresis (sickle cell).



  • Medical consultation.



Management





  • No treatment recommended.



  • Treat underlying medical condition.




Prognosis


Usually benign.




Dry Eye Disease (Dry Eye Syndrome, Keratoconjunctivitis Sicca)


Definition


Sporadic or chronic ocular irritation with visual disturbance due to a tear film and ocular surface abnormality.


Etiology


Any condition that causes a deficiency or imbalance in the aqueous, lipid, or mucin components of the tear film. Dry eye can be classified by mechanism (decreased tear production or increased tear evaporation), category (lid margin disease [i.e., blepharitis, meibomitis], no lid margin disease, altered tear distribution/clearance), or severity ( Table 4-1 ). It is usually multifactorial with an inflammatory component; tear hyperosmolarity and tear film instability create a cycle of ocular surface inflammation, damage, and symptoms.



Table 4-1

Dry Eye Severity and Treatment (DEWS recommendations)












































Severity Level Signs and Symptoms Treatment (Additive)
1 Mild symptoms Education, modify / eliminate associated factors, lubrication (artificial tears, gels, ointments), nutritional supplements, lid hygiene
Mild conjunctival signs
No staining
2 Moderate symptoms Topical steroids, cyclosporine (ciclosporin), secretogogues, punctal plug, tetracyclines, moisture chamber goggles
Tear film and visual signs
Conjunctival staining
Mild corneal staining
3 Severe symptoms Permanent punctal occlusion, bandage contact lenses, autologous serum drops
Marked corneal staining
Filamentary keratitis
4 Extremely severe symptoms Systemic anti-inflammatory agents, acetylcysteine, surgery (i.e., lid, tarsorrhaphy; mucous membrane, salivary gland, amniotic membrane transplantation)
Severe corneal staining
Corneal erosions
Conjunctival scarring


Aqueous-Deficient Dry Eye


Characterized by abnormal lacrimal gland function causing decreased tear production.


Sjögren syndrome


Dry eye, dry mouth, and arthritis with autoantibodies (to Ro (SSA) and / or La (SSB) antigens) and no connective tissue disease (primary, > 95% female) or with connective tissue disease, including rheumatoid arthritis and collagen vascular diseases (secondary).


Non-Sjögren


Hypofunction of the lacrimal gland due to other causes:


Primary lacrimal gland deficiencies


Age-related (historically labeled KCS), congenital alacrima, familial dysautonomia (Riley Day syndrome).


Secondary lacrimal gland deficiencies


Lacrimal gland infiltration, lymphoma, sarcoidosis, amyloidosis, AIDS, graft-versus-host disease, lacrimal gland ablation or denervation.


Obstruction of the lacrimal ducts


Cicatrizing conjunctivitis (Stevens–Johnson syndrome, ocular cicatricial pemphigoid, trachoma, chemical burns, radiation).


Neurosecretory block


Sensory (corneal surgery, contact lens wear, diabetes, neurotrophic keratopathy), motor (cranial nerve VII damage, systemic medications (β-blockers, antimuscarinics, antidepressants, diuretics)).


Evaporative Dry Eye


Characterized by normal lacrimal gland function but increased tear evaporation.


Intrinsic causes


Meibomian gland dysfunction (MGD)


Primary, secondary, simple, or cicatricial (see Meibomitis and Acne Rosacea sections in Chapter 3 ).


Lid / globe abnormalities


Conditions that result in a malposition, lagophthalmos, or proptosis with exposure of the ocular surface (see Exposure Keratopathy in Chapter 5 ).


Reduced blink rate


Reading/computer work (decreases blink rate by up to 60%), Parkinson’s disease.


Medications


Systemic retinoids (Accutane).


Extrinsic causes


Vitamin A deficiency


Malnutrition or malabsorption causes conjunctival xerosis and night blindness (nyctalopia) with progressive retinal degeneration; major cause of blindness worldwide.


Topical drugs


Anesthetics, preservatives (BAK – benzalkonium chloride).


Contact lens wear


Approximately 50% of contact lens wearers have dry eye symptoms.


Ocular surface disease


Cicatrizing conjunctivitis (see above), allergic conjunctivitis.


Epidemiology


Dry eye disease is estimated to affect 5–30% of the population ≥ 50 years old and is more common in women. Associated factors include age, hormone levels (menopause, androgen deficiency), environmental conditions (low humidity, wind, heat, air-conditioning, pollutants, irritants, allergens), and smoking.


Symptoms


Irritation, dryness, burning, stinging, grittiness, foreign body sensation, tearing, red eye, discharge, blurred or fluctuating vision, photophobia, contact lens intolerance, increased blinking; symptoms are variable and exacerbated by wind, smoke, and activities that reduce the blink rate (i.e., reading and computer work).


Signs


Conjunctival injection, decreased tear break-up time (< 10 seconds), decreased tear meniscus height (< 0.20 mm), excess tear film debris, corneal filaments, dry corneal surface, irregular and dull corneal light reflex, corneal and/or conjunctival staining with lissamine green, rose bengal, and fluorescein (typically in the interpalpebral space or on the inferior cornea); may have Bitot’s spot (white, foamy patch of keratinized bulbar conjunctiva [pathognomonic for vitamin A deficiency]), conjunctivochalasis (loosened bulbar conjunctiva resting on lid margin); severe cases can cause corneal ulceration, descemetocele, or perforation. May also have signs of an underlying condition (i.e., rosacea, blepharitis, lid abnormality).


Figure 4-8


Keratoconjunctivitis sicca demonstrating superficial punctate keratitis (SPK) and filaments stained with fluorescein dye.



Figure 4-9


Dry eye due to vitamin A deficiency, demonstrating diffuse staining of cornea, inferior limbus, and interpalpebral conjunctiva with rose bengal.



Figure 4-10


Dry eye demonstrating lissamine green staining of the interpalpebral conjunctiva.




Differential Diagnosis


See above; also allergic conjunctivitis, medicamentosa, contact lens overwear, trichiasis.


Evaluation





  • Complete history with attention to severity, duration, exacerbating factors, prior treatment, contact lens wear, previous eye/eyelid surgery, systemic diseases and medications. Consider using a questionnaire such as the Ocular Surface Disease Index (OSDI), Dry Eye Questionnaire (DEQ), National Eye Institute Visual Function Questionnaire (NEI VFQ-25), or McMonnies questionnaire.



  • Complete eye exam with attention to lids, tear film (break-up time and height of meniscus), conjunctiva, and cornea (staining with lissamine green or rose bengal [dead and degenerated epithelial cells], and/or fluorescein [only dead epithelial cells]).



  • Schirmer’s test : Two tests exist, but they are usually not performed as originally described. One is done without and one is done with topical anesthesia. The inferior fornix is dried with a cotton-tipped applicator, and a strip of standardized filter paper (Whatman #41, 5 mm width) is placed in each lower lid at the junction of the lateral and middle thirds. After 5 minutes, the strips are removed and the amount of wetting is measured. Normal results are 15 mm or greater without anesthesia (basal + reflex tearing), and 10 mm or greater with topical anesthesia (basal tearing). Schirmer’s test often produces variable results so its usefulness may be limited.



  • Alternatively, consider the phenol red thread test : Similar to the Schirmer’s test but uses a special cotton thread that changes color as tears are absorbed for 30 seconds; less irritating and may be more reproducible.



  • Lab tests : Consider tear lactoferrin and lysozyme (decreased), matrix metalloproteinase 9 (MMP-9) (> 40 ng/mL), tear osmolarity (> 316 mOsm / L), and impression cytology (detects reduced goblet cell density and squamous metaplasia; rarely used clinically).



  • Consider corneal topography (computerized videokeratography): Irregular or broken mires with resulting abnormal topography and blank areas due to poor-quality tear film and dry spots. Surface regularity index (SRI) value correlates with severity of dry eye.



  • Electroretinogram (reduced), electro-oculogram (abnormal), and dark adaptation (prolonged) in vitamin A deficiency.



  • Consider medical consultation for systemic diseases.



Management





  • Reduce/eliminate associated factors.



  • The mainstay of therapy is topical lubrication with artificial tears up to q1h and gel or ointment qhs. Preservative-free tear formulations should be used if the frequency of administration is greater than qid.



  • Additional treatment is performed in a stepwise fashion and includes: hydroxypropyl methylcellulose (Lacrisert), topical cyclosporine 0.05% (Restasis) bid for at least 3 months, short course (1–2 weeks) of topical steroid (Lotemax, Alrex, Pred Mild, or FML) bid to qid, punctal occlusion (with plugs or cautery), nutritional supplements (i.e., oral flaxseed / fish oils [omega-3 fatty acids]), bandage contact lens, moisture chamber goggles, lid taping at bedtime, and tarsorrhaphy for more severe cases. Recommendations of the 2007 Dry Eye Workshop (DEWS) are based on severity (1–4) of symptoms (discomfort, fatigue, visual disturbance) and signs (lid, tear film, conjunctiva, cornea) (see Table 4-1 ).



  • Consider acetylcysteine 10% (Mucomyst) qd to qid for mucus strands or filaments.



  • Consider autologous serum drops or Boston ocular surface prosthesis (PROSE lens) in severe cases.



  • Consider oral cholinergic agonists (pilocarpine, cevimeline) to increase tear production, especially in patients with Sjögren syndrome.



  • Treat underlying condition:




    • Acne rosacea/blepharitis: see Chapter 3 .



    • Vitamin A deficiency: Vitamin A replacement (vitamin A 15,000 IU po qd).



    • Androgen deficiency: Consider treatment with transdermal testosterone cream (3%) to closed eyelids, and/or topical DHEA (compounded eye drops).



    • Lid malposition: Consider surgical repair.





Prognosis


Depends on underlying condition; severe cases may be difficult to manage.




Inflammation


Definition


Chemosis


Edema of conjunctiva; may be mild with boggy appearance or massive with tense ballooning.


Figure 4-11


Chemosis with extensive ballooning of conjunctiva and prolapse over lower lid nasally. Temporally, the edges of the elevated conjunctiva are delineated by the light reflexes from the tear film.




Follicles


Small, translucent, avascular mounds of plasma cells and lymphocytes found in epidemic keratoconjunctivitis (EKC), herpes simplex virus, chlamydia, molluscum, or drug reactions.


Figure 4-12


Follicular conjunctivitis demonstrating inferior palpebral follicles with the typical gelatinous bump appearance.



Figure 4-13


Large, gelatinous, tarsal follicles in a patient with acute trachoma.




Granuloma


Collection of giant multinucleated cells found in chronic inflammation from sarcoid, foreign body, or chalazion.


Hyperemia


Redness and injection of conjunctiva.


Figure 4-14


Hyperemia. The dilated conjunctival vessels produce a diffuse redness (injection).




Membranes


A true membrane is a firmly adherent, fibrinous exudate that bleeds and scars when removed; found in bacterial conjunctivitis ( Streptococcus species, Neisseria gonorrhoeae , Corynebacterium diphtheriae ), Stevens–Johnson syndrome, and burns. A pseudomembrane is a loosely attached, avascular, fibrinous exudate found in EKC and mild allergic or bacterial conjunctivitis.


Figure 4-15


Pseudomembrane evident as a thick yellow coating in a patient with epidemic keratoconjunctivitis.




Papillae


Vascular reaction consisting of fibrovascular mounds with central vascular tuft; nonspecific finding in any conjunctival irritation or conjunctivitis; can be large (“cobblestones” or giant papillae).


Figure 4-16


Large papillae in a patient with vernal keratoconjunctivitis. The central vascular cores are clearly visible as dots within the papillae.




Phlyctenule


Focal, nodular, vascularized infiltrate of polymorphonuclear leukocytes and lymphocytes with central necrosis due to hypersensitivity to Staphylococcus species, Mycobacterium species, Candida species, Coccidioides , Chlamydia , or nematodes; located on the bulbar conjunctiva or at the limbus; can march across the cornea, causing vascularization and scarring behind the leading edge.


Figure 4-17


Phlyctenule creeping across the cornea is demonstrated by the white infiltrate with trailing neovascularization.




Symptoms


Red eye, swelling, itching, foreign body sensation; may have discharge, photophobia, and tearing.


Signs


See above; depends on type of inflammation.


Differential Diagnosis


Any irritation of conjunctiva (allergic, infectious, autoimmune, chemical, foreign body, idiopathic).


Evaluation





  • Complete ophthalmic history and eye exam with attention to preauricular lymphadenopathy, everting lids, conjunctiva, cornea, and characteristics of discharge if present.



  • Lab tests : Cultures and smears of conjunctiva, cornea, and discharge for infectious causes.



Management





  • Treatment depends on etiology; usually supportive.



  • Topical vasoconstrictor, nonsteroidal anti-inflammatory drug (NSAID), antihistamine, mast cell stabilizer, or mast cell stabilizer and antihistamine combination (see Table 4-2 ); severe cases may require topical steroid (prednisolone acetate 1% qid) or topical antibiotic (bacitracin-polymixin B sulfate [Polysporin] drops or erythromycin ointment qid or both).



    Table 4-2

    Topical Medications Available for Management of Allergic Conjunctivitis







































    Mechanism Trade Name Pharmacologic Name Dosage
    Antihistamine Emadine
    Livostin     		Emadastine 0.05%
    Levocabastine 0.05%     		qid
    Mast cell stabilizer Alamast
    Alocril
    Alomide
    Crolom     		Pemirolast 0.1%
    Nedocromil 2%
    Lodoxamide 0.1%
    Cromolyn sodium 4%     		qid
    bid
    qid
    qid
    Mast cell stabilizer and antihistamine combination Optivar
    Patanol, Pataday
    Elestat
    Zaditor, Alaway
    Bepreve
    Lastacaft     		Azelastine 0.05%
    Olopatadine 0.1%, 0.2%
    Epinastine hydrochloride 0.05%
    Ketotifen fumarate 0.025%
    Bepotastine 1.5%
    Alcaftadine 0.25%     		bid
    bid, qd
    bid
    bid
    bid
    qd
    Nonsteroidal anti-inflammatory Acular Ketorolac tromethamine 0.5% qid
    Steroidal anti-inflammatory Alrex Loteprednol etabonate 0.2% up to qid
    Vasoconstrictor Naphcon-A

    Vasocon-A     		Naphazoline 0.025% and pheniramine 0.3%
    Naphazoline 0.05% and antazoline 0.5%     		up to qid
    up to qid

    Only gold members can continue reading. Log In or Register to continue

    Related posts:

    1. Orbit
    2. Anterior Chamber
    3. Lens
    4. Lids, Lashes, and Lacrimal System

    Stay updated, free articles. Join our Telegram channel
Tags:
Aug 25, 2019 | Posted by in OPHTHALMOLOGY | Comments Off on Conjunctiva and Sclera

Full access? Get Clinical Tree
Get Clinical Tree app for offline access