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S Afr Fam Pract
ISSN 2078-6190     EISSN 2078-6204 

© 2016 The Author(s)

REVIEW

Introduction

A “red eye” is a common complaint encountered by general 
practitioners, pharmacists and health care workers in everyday 
practice. It can however be a challenge to accurately diagnose 
and manage this condition – a sentiment that is shared by 
specialist ophthalmologists.[1] Allergic conjunctivitis is therefore 
often underdiagnosed and consequently undertreated. 

Several non-infective inflammatory conditions presenting 
as hypersensitivity reactions may be associated with clinical 
manifestations of ocular allergy.[2] Typically the anterior segment 
of the eye is affected, and all four types of hypersensitivity 
reactions may be involved; either as a single cause, or as an 
overlap between the different types. Specific IgE antibodies 
are almost always present in all types of allergic conjunctivitis 
whereby the inflammatory response towards allergens is a result 
of degranulation of the sensitized mast cells resulting in the 
clinical ocular allergic expression.[3] Recent findings indicate that 
conjunctival symptoms are present in 30-70% of adults suffering 
from acute allergic rhinitis, while 30% are associated with chronic 
and persistent episodes.[4]

Environmental factors, especially notable in our South African 
setting, are important. For instance, there is a significant 
association between communities residing in close proximities 
to mine dumps and the occurrence of rhinoconjunctivitis, 
wheezing and asthma.[5] The frequency of patients presenting 
with ophthalmological complaints seems to be on the 
increase, and several causes have been proposed. Some of 
these causes include air pollution, early childhood exposure to 
allergens, genetic predisposition and several immunological 
conditions.[6] During physical examination all forms of non-
severe allergic conjunctivitis presents in a very similar and 
often indistinguishable manner, therefore history taking and 

onset of symptoms plays an important role in the diagnosis.[7]  
It is important for general practitioners to be able to distinguish 
between bacterial, viral and allergic causes of conjunctivitis on 
clinical assessment.  

Types of allergic conjunctivitis

Allergic conjunctivitis can be classified as either severe or 
non-severe. Non-severe allergic conjunctivitis includes Acute 
Allergic Conjunctivitis (AAC), Seasonal Allergic Conjunctivitis 
(SAC) and Perennial Allergic Conjunctivitis (PAC). Severe allergic 
conjunctivitis comprises Vernal keratoconjunctivitis (VKC), giant 
papillary conjunctivitis (GPC) and atopic keratoconjunctivitis 
(AKC) [8] 

Non-severe allergic conjunctivitis:

Environmental exposure to various allergens results in a sudden 
onset hypersensitivity reaction. Characteristically, symptoms 
develop rapidly and usually resolve spontaneously within 
24 hours after removal of the causative factor. Acute allergic 
conjunctivitis is characterized by eyelid edema, tearing, severe 
itching, hyperemia and chemosis. The symptoms are frequently 
bilateral, however one eye may be affected more than the other. 
Mild crusting with a non-purulent discharge is not uncommon. 
In the presence of nasal symptoms (rhinoconjunctivitis), it is 
commonly attributed to exposure to outdoor airborne pollens 
and occurs at the same time each year, therefore termed Seasonal 
allergic conjunctivitis.[9] The development of symptoms in 
seasonal allergic conjunctivitis is less severe compared to typical 
sudden onset allergic conjunctivitis, but symptom resolution 
may take a few weeks to subside, and varies with the pollen 
count. Perennial allergic conjunctivitis is the most common 
type of eye allergy and symptoms may persist throughout the 
year. It is estimated that around 20% of the world’s population 
is affected by PAC.[10] The potential chronicity of this disease 

Abstract

Allergic conjunctivitis is a common condition encountered by the healthcare professional. Several factors have been implicated 
as possible causes and almost all involve an IgE mediated immune response. Symptoms may vary from mild to severe and if 
misdiagnosed, or incorrect treatment is given, the result could lead to permanent vision loss. It is important for the general 
practitioner to differentiate between allergic, bacterial and viral causes of conjunctivitis, and to treat and refer appropriately.

Keywords: Allergic conjunctivitis, atopic keratoconjunctivitis, giant papillary conjunctivitis, treatment, vernal keratoconjunctivitis

South African Family Practice 2016; 58(2):6-10
 
Open Access article distributed under the terms of the 
Creative Commons License [CC BY-NC-ND 4.0] 
http://creativecommons.org/licenses/by-nc-nd/4.0

The allergic eye
Andre Marais

Senior lecturer and Clinical Pharmacologist
Department of Pharmacology, School of Medicine, Faculty of Health Sciences, University of Pretoria, South Africa
Corresponding author, email: dramarais@gmail.com / andre.marais@up.ac.za



The allergic eye 7

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makes the classification between acute and chronic somewhat 
debatable. Perennial allergic conjunctivitis is frequently 
associated with known indoor allergens such as house dust 
mites, molds and animal dander. Symptoms tend to be more 
severe in the mornings and may be accompanied by ritualistic 
sneezing episodes.  

Allergic eye disease primarily affects the conjunctiva resulting in 
various degrees of redness. This may involve the bulbar (globe), 
palpebral or tarsal (mucus membrane lining the inner surface of 
the eyelids) conjunctiva.[10]   

In all instances of non-severe allergic conjunctivitis the condition 
is painless, does not affect vision and causes minimal sensitivity 
to light. Alternative diagnosis or specialist referral should be 
considered to rule out more serious conditions including scleritis, 
iritis, episcleritis or angle closure glaucoma if ocular pain, vision 
disturbances or intense redness around the iris are present. 

Severe allergic conjunctivitis

Atopic keratoconjunctivitis (AKC) is an uncommon condition 
affecting patients between the ages of 30 and 50 years. It is 
closely associated with atopic dermatitis and eczema. Affected 
patients presents with severe pruritus and eyelid swelling which 
may lead to blindness, corneal scarring and cataract formation[11]. 
Diagnosis is based on clinical features and associated atopic 
findings. Treatment includes long term application of topical 
antihistamines and mast cell stabilizers. Corticosteroid drops 
may be used for a period not exceeding 2 weeks after which 
the likelihood of raising the intraocular pressure increases 
dramatically. The accompanying eyelid dermatitis should be 
treated with application of a low potency corticosteroid cream 
two to four times daily. Non-responders warrant specialist 
ophthalmological referral where topical calcineurin inhibitors (i.e 
cyclosporine) could be used for symptom improvement.[12]

Vernal keratoconjunctivitis is a complex chronic allergic 
inflammatory disease mainly mediated by Th2 lymphocytes 
resulting in the over-expression of mast cells, eosinophils 
and certain cytokines and growth factors. Specific IgE testing 
(serum and lacrimal fluid) in these patients is positive in only 
approximately half of affected individuals.[13] Boys are mostly 
affected, and the diagnosis is made during the first decade 
of life. The clinical presentation of VKC is similar to atopic 

keratoconjunctivitis in respect to the severe ocular pruritus, but 
the associated corneal complications are significantly lower. 
Characteristic findings include >1 mm tarsal giant conjunctival 
papillae and limbal gelatinous changes (Trantas dots), ptosis 
and corneal ulcers. (Figure 3) Diagnosis is based on typical 
epidemiology and clinical features. The disease is self-limiting 
and may disappear spontaneously in the second decade. First line 
therapy includes topical antihistamines and mast cell stabilizers. 
Immunomodulatory agents (cyclosporine A and tacrolimus) 
have been used in the long term management of resistant cases. 
The overuse of prescribed corticosteroids may lead to iatrogenic 
corneal damage and cataract formation, justifying that these 
patients be referred to an ophthalmologist for management.[14] 

Giant papillary conjunctivitis is a disease mostly affecting young 
adults wearing contact lenses. The pathogenesis is therefore not 
exclusively a result of immunological mechanisms, but includes 
a mechanical component.[15] Debris precipitates on the surface of 
hard contact lenses in particular, which triggers an immunological 
IgE response. This could be an immediate type I hypersensitivity 
reaction, or in some instances a delayed type IV reaction, only 
presenting after several months of wear.[16] Initial symptoms 
are mild irritation, itching and slight mucus production. If left 
untreated progression to intense discomfort, blurry vision, severe 
discharge and complete intolerance to wearing contact lenses 
may develop. In late stages the development of enlarged (giant) 
upper tarsal papillae (cobblestone appearance), conjunctival 
hyperemia, ptosis and eyelid thickening is present. (Figure 4) 
Management consists of contact lens “holidays” for two to four 

Figure 1: Allergic conjunctivitis
Image available from http://www.newhealthguide.org/images/10420176/Allergic-
Conjunctivitis.jpg

Figure 2: Atopic keratoconjunctivitis
Image available from http://www.reviewofoptometry.com/
CMSImagesContent/2005/4/2_1407_0.jpg

Figure 3: Vernal keratoconjunctivitis
Image available from: http://bestpractice.bmj.com/best-practice/monograph/496/resources/
image/bp/19.html



S Afr Fam Pract 2016;58(2):6-108

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weeks allowing for the inflammation to subside. Old lenses should 
be discarded and alternative contact lens preservatives should 
be explored. Topical antihistamines and mast cell stabilizers are 
effective first line therapy. Non responders may be given topical 
corticosteroids for a period of 2 weeks not exceeding 6 weeks of 
treatment.

Pharmacological therapy

Various pharmacological agents are available to treat 
allergic conjunctivitis. Many of these agents, excluding the 
glucocorticoids, are available as over-the-counter preparations 
and can be obtained without consulting a physician. It however 
remains imperative not to treat any condition resembling a 
“red eye” before an accurate diagnosis has been made. Table 
1 illustrates the currently available topical ophthalmological 
preparations indicated for use in allergic and non-infective 
conjunctivitis.

Figure 4: Giant papillary conjunctivitis
Image available from http://medicine.academic.ru/pictures/medicine/354.jpg

Table 1. Currently available topical preparations in South Africa for the treatment of allergic and non-infective conjunctivitis

Composition Dosage Pack size SEP*

Vasoconstrictor/antihistamine combinations

Gemini® - Al Pharm Ltd Antazoline 0.5mg/ml
Tetrahydrozoline 0.4mg/ml

1-2 drops four hourly 15ml R35.93

Oculerge® - Aspen 15ml R26.46

Spersallerg® - AL Pharm Ltd 10ml R39.90

Antihistamines

Livostin ED® - Janssen 
Pharmaceuticals

Levocabastine 0.5mg/ml 1-2 drops two to four times daily 4ml R136.10

Zaditen® - Al Pharm Ltd Ketotifen 0.25mg/ml 5ml R135.79

Vasoconstrictors

Oculosan® - Al Pharm Naphazoline 0.05mg/ml 1-2 drops  four times daily 10ml R40.53

Oxylin® - Allergan Oxymetazoline 0.25mg/ml 15ml R57.49

Prefrin® - Allergan Phenylephrine 1.2mg/ml 1-2 drops three to four hourly 15ml R36.97

Antihistamines with mast cell stabilizing properties

Patanol® - Alcon Olopatadine 1mg/ml 1-2 drops twice daily 5ml R134.62

Optilast® - MEDIA Pharma Azelastine 0.5mg/ml 6ml R39.78

Relestat® - Allergan Epinastine 0.5mg/ml 5ml R127.48

Emadine® - Alcon Emedastine 0.5mg/ml 5ml R127.05

Mast cell stabilizers

Cromohexal® - Sandoz Sod cromoglycate 20mg/ml 1-2 drops four times daily 10ml R43.90

Stop-Allerg® - Genop 13.5ml R35.53

Alomide® - Alcon Lodoxamide 1mg/ml 10ml R157.20

Glucocorticosteroids

Betnesol® - Aspen Betamethasone 0.1g/100ml 1-2 drops every 1-2 hours for 1-2 days, 
then 2-3 times daily not exceeding 2 

weeks

5ml R148.71

Flucon® - Alcon Fluorometholone 1mg/ml 5ml R154.55

FML® - Allergan 5ml R154.99

Maxidex® - Alcon Dexamethasone 1mg/ml 1-2 drops hourly for first day then reduced 
to 3-4 times daily according to severity

5ml R143.18

Minims Prednisolone Na Phosphate® 
- Bausch & Lomb

Prednisolone sod phosphate 
2.5mg/0.5ml

1-2 drops according to severity 20x0.5ml R337.76

Pred Mild® - Allergan Prednisolone acetate 1.2mg/ml 1-2 drops twice to four times daily for 
1-2 days then every 4 hours according to 

severity

5ml R133.76

Pref Forte® - Allergan Prednisolone acetate 10mg/ml 5ml R164.95

Spersadex®Restan Dexamethasone 0.1g/100ml 1-2 drops four times daily 5ml R131.01

Lotemax® - Bausch & Lomb Loteprednol 5mg/ml 5ml R131.82

* Single exit price, as listed in the Monthly Index of Medical Specialties. 2016;56(1)



S Afr Fam Pract 2016;58(2):6-1010

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Antihistamines, Vasoconstrictors and combinations 
(Decongestants)

Topical eye drops containing a H1 antihistamine (antazoline, 
levocabastine, ketotifen), a α1 vasoconstrictor (tetrahydrozoline, 
naphazoline, oxymetazoline, phenylephrine) or a combination 
of both are available without a prescription. Antihistamines 
inhibit the action of the primary mast cell mediator by reversibly 
antagonizing/blocking the H1 receptor in the conjunctiva and 
eyelids. Vasoconstrictors decrease conjunctival edema by 
activating post ganglionic alpha-1-adrenergic receptors in the 
arterial blood vessels. Alpha agonists in addition decrease the 
conjunctival hyperemia. These agents should only be used for 
short term symptom relief as prolonged use may cause rebound 
hyperemia.[17] Dosing with combination vasoconstrictor/anti-
histamines is up to 4 times per day for a maximum of 7 days.

Antihistamines with mast cell stabilizing properties

Antihistamines with mast cell stabilizing properties are also 
available without prescription. In addition to the antagonistic 
effect on the histamine receptors, these agents inhibit mast 
cell degranulation thereby preventing histamine, tryptase and 
prostaglandins from being released. Onset of action is within 
a few minutes. Dosing is twice daily and treatment should be 
continued for 2 weeks at least allowing for the inflammation to 
subside. Drugs in this group include olopatadine (with additional 
anticholinergic effects), azelastine, epinastine and emedastine. 

Side effects of these drugs are uncommon but may include 
headache, blurred vision, foreign body sensation and ocular 
discomfort. In addition, these agents are frequently available 
as nasal sprays, which may contribute to a bitter taste and nasal 
burning.

Mast cell stabilizers

In contrast to the antihistamines with mast cell stabilizing 
properties, pure mast cell stabilizers (sodium cromoglycate 
and lodoxamide) are less effective and display a longer onset 
of action (5-14 days) thereby making these agents unsuitable 
for acute immediate symptom relief. These drugs are useful in 
prophylactic use and provide a good option for SAC. Dosing is 
4 times per day and may be continued for prolonged periods.

Glucocorticosteroids

Due to the documented serious side effects of topical 
glucocorticosteroids, these agents are not advocated for 
routine use and are only indicated for refractory cases of allergic 
conjunctivitis. Use should be avoided if any viral infection 
is suspected. Glucocorticosteroids induce the formation of 
lipocortin, which acts as the body’s natural anti-inflammatory 
agent; thereby reducing all inflammatory products of the 
arachidonic acid cascade. [18] Treatment should ideally be initiated 
under the care of an ophthalmologist, and only be used for short 
periods. Traditional topical glucocorticosteroids (prednisolone, 
fluorometholone, betamethasone and dexamethasone) have 
been associated with severe ocular side effects including raised 
intra ocular pressure, cataract formation, glaucoma and increased 
risk for secondary infections. The development of modified “soft” 
steroids (loteprednol and rimexolone) are formulated specifically 

to undergo rapid inactivation after corneal penetration; thereby 
limiting the incidence of raising the intraocular pressure.[19] 
Rimexolone is not yet available in South Africa. In general, 
glucocorticosteroids are administered every one to two hours 
during the first 24-48 hours and then 4 times daily for 2 weeks.

Conclusion 

Acute allergic conjunctivitis is a common condition and usually 
settles without treatment. Immediate relief may be achieved 
with the use of topical vasoconstrictor/antihistamine/mast cell 
stabilizers, either alone or in combination. Severe cases warrant 
treatment with corticosteroids and should preferably be done 
under specialist ophthalmological supervision. Chronic forms of 
allergic conjunctivitis may be difficult to treat and pose the risk of 
permanent eye damage. Patients must be educated concerning 
their condition and general measures including instructions 
not to rub their eyes, avoidance of known triggers and proper 
contact lens care should be done at each encounter. 

References
1. Granet D. Allergic rhinoconjunctivitis and differential diagnosis of the red eye. 

Allergy Asthma Proc. 2008;29(6):565-74.
2. Rosario N, Bielory L. Epidemiology of allergic conjunctivitis. Current opinion in 

allergy and clinical immunology. 2011;11(5):471-6.
3. Bonini S. Atopic keratoconjunctivitis. Allergy. 2004;59.
4. Leonardi A, Castegnaro A, Valerio AL, Lazzarini D. Epidemiology of allergic 

conjunctivitis: clinical appearance and treatment patterns in a population-based 
study. Current opinion in allergy and clinical immunology. 2015;15(5):482-8.

5. Nkosi V, Wichmann J, Voyi K. Mine dumps, wheeze, asthma, and 
rhinoconjunctivitis among adolescents in South Africa: any association? 
International Journal of Environmental Health Research. 2015;25(6):583-600.

6. Leonardi S, del Giudice Miraglia M, La Rosa M, Bellanti JA. Atopic disease, 
immune system, and the environment. Allergy Asthma Proc. 2007;28.

7. Mantelli F, Lambiase A, Bonini S. A simple and rapid diagnostic algorithm for 
the detection of ocular allergic diseases. Current opinion in allergy and clinical 
immunology. 2009;9(5):471-6.

8. Ono SJ, Abelson MB. Allergic conjunctivitis: Update on pathophysiology and 
prospects for future treatment. Journal of Allergy and Clinical Immunology. 
2005;115(1):118-22.

9. Bousquet J, Khaltaev N, Cruz AA, Denburg J, Fokkens WJ, Togias A, et al. Allergic 
Rhinitis and its Impact on Asthma (ARIA) 2008 update (in collaboration with 
the World Health Organization, GA(2)LEN and AllerGen). Allergy. 2008;63 Suppl 
86:8-160.

10. La Rosa M, Lionetti E, Reibaldi M, Russo A, Longo A, Leonardi S, et al. Allergic 
conjunctivitis: a comprehensive review of the literature. Italian Journal of 
Pediatrics. 2013;39(1):1-8.

11. Hu Y, Matsumoto Y, Adan ES, Dogru M, Fukagawa K, Tsubota K, et al. 
Corneal in vivo confocal scanning laser microscopy in patients with atopic 
keratoconjunctivitis. Ophthalmology. 2008;115(11):2004-12.

12. Hingorani M, Moodaley L, Calder VL, Buckley RJ, Lightman S. A randomized, 
placebo-controlled trial of topical cyclosporin A in steroid-dependent atopic 
keratoconjunctivitis. Ophthalmology. 1998;105(9):1715-20.

13. Pattnaik L, Acharya L. A comprehensive review on vernal keratoconjunctivitis 
with emphasis on proteomics. Life Sciences. 2015;128:47-54.

14. Pleyer U, Leonardi A. Vernal keratoconjunctivitis. Ophthalmologe. 
2015;112(2):177-89.

15. Leonardi A, De Dominicis C, Motterle L. Immunopathogenesis of ocular allergy: 
a schematic approach to different clinical entities. Current opinion in allergy and 
clinical immunology. 2007;7.

16. Donshik PC. Contact lens chemistry and giant papillary conjunctivitis. Eye & 
contact lens. 2003;29(1 Suppl):S37-9; discussion S57-9, S192-4.

17. Spector SL, Raizman MB. Conjunctivitis medicamentosa. J Allergy Clin Immunol. 
1994;94(1):134-6.

18. Sibilia J. Corticosteroids and inflammation. La Revue du praticien. 
2003;53(5):495-501.

19. Druzgala P, Wu WM, Bodor N. Ocular absorption and distribution of loteprednol 
etabonate, a soft steroid, in rabbit eyes. Current eye research. 1991;10(10):933-7.