Microsoft Word - nasir Bhatti 4


 191

Original Article 
 

Three Years Clinical Audit of Patients 
Presenting in Cornea Clinic at a Tertiary 
Care 
 
Nasir Bhatti, Muhammad Umar Fawad, Munawar Hussain, Umair Qidwai, Mazhar Ul Hasan,  
Aziz Ur Rehman 
 

Pak J Ophthalmol 2011, Vol. 27 No. 4 
 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  . .  
See end of article for 
authors affiliations 
 
…..……………………….. 
 
Correspondence to: 
Nasir Bhatti 
Isra Postgraduate Institute of 
Ophthalmology / Al-Ibrahim Eye 
Hospital Malir Karachi 
 
Submission of paper 
June’ 2011 
 
Acceptance for publication 
November’ 2011 
…..……………………….. 

Purpose: To determine the mode of presentation and aetiology of patients 
presenting in cornea clinic at a tertiary care teaching hospital in Karachi. 
Material and Methods: This hospital based retrospective case study was 
conducted in Al-Ibrahim Eye Hospital Karachi from 1st January 2008 to 1st 
January 2011. 
Results: A total of 2213 new patients (1347 males and 866 females) presented 
in cornea clinic. The average age at presentation was 59.5 years. The most 
common disease was Microbial Keratitis followed by Spheroidal degeneration in 
230 (10.39%) and Keratoconusin 178 (8.01%) patients. 
Conclusion: Corneal diseases are common in the population studied with 
Microbial Keratitis as the most common condition. Health-promotion strategies 
have to be developed and implemented to raise awareness about the causes 
and prevention of corneal blindness. 

 
he transparent cornea is exposed to the 
external environment so it is more prone to 
injury, inflammation or infection. Any insult 

which disrupts the natural anatomy and physiology of 
the cornea results in corneal scarring or opacity. As 
cornea is a highly specialized structure, any 
inflammation or injury is likely to cause some 
permanent damage. 

According to the WHO global data on the causes 
of blindness, corneal blindness is the 4thmajor cause of 
blindness worldwide. It affects 1.9 million people 
(5.1%) globally1. 

The prevalence and causes of corneal blindness 
vary from one region of the world to another. In the 
low income countries, corneal scarring due to vitamin 
A deficiency, measles infection, ophthalmianeo-
natorum, and the effects of harmful traditional eye 
remedies are the major causes of corneal scarring2. 

Pakistan is a developing country. The national 
blindness and visual impairment survey reports the 

prevalence of blindness as 0.9%. Corneal scarring 
(11.8%) is the leading cause of blindness in Pakistan 
after cataract3. 

This clinical audit was performed to determine the 
mode of presentation and aetiology of patients 
presenting in cornea clinic at a tertiary care hospital in 
Karachi. 

No community-based studies have been done to 
determine the prevalence and causes of corneal 
diseases in Pakistan. As a preliminary to community 
based study to identify the relative importance of 
known causes of corneal blindness as seen in Karachi 
Pakistan, the aetiology of cases seen in hospital was 
determined. 

 
MATERIAL AND METHODS 
A retrospective review of patients attending the 
cornea clinic of Al-Ibrahim Eye Hospital / ISRA 
Postgraduate Institute of Ophthalmology, Karachi, 

T 



 192

Pakistan between January 2008 and January 2011was 
carried out. Information sought included age at 
presentation, sex and diagnosis of corneal disease. 
Statistical analyses was done, using proportions and 
percentages to summarize the data. 

 
RESULTS 
There were 2213 new patients (1347 males and 866 
females) registered in the cornea clinic of Al-Ibrahim 
Eye Hospital (AIEH) during January 2008 till January 
2011. The mean age at presentation was 59.5 years. The 
most common disease seen was Microbial Keratitis, 
followed by Spheroidal degeneration in 230 (10.4%) 
and Keratoconusin 178 (8%) patients. Two hundred 
and seventy eight patients were offered corneal 
grafting however only 69 keratoplasties were 
performed during these 3 years. For the purpose of 
description, the diseases are classified into various 
categories as shown in (Table 1). 

 
DISCUSSION 
Corneal blindness is a common cause of blindness. 
According to WHO, it is the fourth major cause of 
blindness in the world. Its epidemiology is 
complicated and diverse, and covers a wide range of 
infectious, inflammatory and degenerative eye 
diseases. The prevalence of corneal blindness also 
varies from country to country and even from one 
population to another, depending upon the 
availability and general standards of eye care4. 

The prevalence of blindness in Pakistan is 0.9%. 
Corneal blindness is the leading cause of blindness 
nationally after cataract and is responsible for 11.8%of 
the total blindness in Pakistan. 

Our study showed a male preponderance, 60.86% 
as compared to 39.13% females. This trend is found in 
various developing countries where men have more 
chances of accident or trauma due to greater outdoor 
activity and they have comparatively easier access to 
health care due to various economic and social 
factors5, 6. 

In our study, Microbial Keratitis was found to be 
the most common presentation at cornea clinic. It is 
one of the most common causes of ocular morbidity in 
the developing world. Gonzales et al found that the 
annual incidence of corneal ulceration in Madurai 
District in South India was 113 per 100,000 people.7 
Over the counter sale and indiscriminate use of 

steroids and antibiotics is an important risk factor for 
Microbial Keratitis. It also leads to corneal super-
infection, which is an important factor for the high 
prevalence of corneal blindness in developing 
countries8. 

Corneal opacities were another major cause of 
blindness in our study. Most corneal opacities were 
secondary to microbial keratitis in our hospital, which 
serve a predominantly rural and agricultural 
population. Gara and Rao in India found that corneal 
infections are responsible for a large proportion of 
corneal scar and that corneal scar was the most 
common indication (28.1%) for corneal transplant-
tation, of which keratitis accounted for 50.5%9. 

Management of corneal abrasions at primary care 
levels within 48 hours has been demonstrated to be the 
best way to prevent corneal ulcers in low- and middle-
income countries10. Communities need to be made 
aware about the principles of prevention of ocular 
infections. The ophthalmic technicians and lady health 
workers can help in the primary prevention of the 
disease. Educational strategies can reduce avoidable 
risk such as trauma, but treatment protocols are 
required to manage established disease11. 

Fuch’s endothelial dystrophy (1.3%) was the most 
prevalent corneal dystrophy in our study. Another 
study that looked at the prevalence of corneal 
dystrophies in various races in USA indicated that 
endothelial dystrophies in Asian subjects account for 
2% of the total dystrophies12. Geographical differences 
are present in the prevalence of corneal dystrophies 
worldwide. A report from Iceland indicated that 
macular corneal dystrophy accounts for one third of 
corneal transplants13. Another report from the Czech 
republic posited that posterior polymorphous corneal 
dystrophy was one of the most prevalent corneal 
dystrophies14. 

The prevalence of Keratoconus in our clinic was 
8.1%. Another hospital based study in Singapore 
found out bilateral Keratoconus in 56%15. A similar 
trend is found in USA where 59% patient had 
Keratoconus where as in India, the prevalence was 
2.3%16,17. 

Among the corneal degenerations, Spheroidal 
degeneration was the most prevalent with 10.39%. It is 
higher when compared to a South African 
population18. This may be due to the fact that our 
hospitals serve a predominately rural population, 
which mostly stay outdoors. 
 



 193

Table 1:   Classification of diseases and their frequency 
in cornea clinic at AIEH, Jan 2008-Jan 2011. 

 Diseases Patients n (%)

Infectious 

Viral Keratitis 310 (14.01) 
Bacterial Keratitis 275 (12.43) 
Fungal keratitis 94 (4.25) 
Acanthamoeba 
keratitis 

20 (0.90) 

Trachoma 8 (0.36) 
Nutritional Xerophthalmia 6 (0.27) 

Auto immune 

Mooren’s ulcer 8 (0.36) 
Peripheral ulcerative 
keratitis 

4 (0.18) 

Steven Johnson’s 
syndrome 

7 (0.32) 

 
 
Degeration 

Crocodile Shagreen 141 (6.37) 
Spheroidal 
degeneration 

230 (10.39) 

Band keratopathy 74 (3.34) 
Salzman Nodular 7 (0.32) 

Dystrophy 

Fuch’s endothelial 
dystrophy 

29 (1.31) 

Lattice 7 (0.32) 
CHED 4 (0.18) 
Macular 14 (0.63) 
Granular 7 (0.32) 
Gelatinous 1 (0.05) 
Cogan’s microcystic 8 (0.36) 
Infectious crystalline 2 (0.09) 
Reis Buckler 2 (0.09) 

 
 
Ectasia 

Keratoconus 178 (8.04) 
Keratoglobus 1 (0.05) 
Pellucid marginal 
degeneration 

1 (0.05) 

Opacity 

Post traumatic 86 (3.89) 
Post microbial 
keratitis 

157 (7.09) 

Vascularised 44 (1.99) 
Exposure keratitis 7 (0.32) 
Failed PKP 18 (0.81) 

 
 
Bullous 
keratopathy 

Acute hydrops 32 (1.45) 
Postoperative 95 (4.29) 
Aphakic 23 (1.04) 
Trauma 79 (3.57) 
Descematocoele 44 (1.99) 

 
 
Miscellaneous 

VKC 58 (2.62) 
Phylectunosis 24 (1.08) 
Dry eyes 46 (2.08) 
Chemical burns 43 (1.94) 

Total  2213 (100) 

The most common cause of bullous keratopathy 
was post surgical. This finding is similar to the study 
in Japan where pseudophakia or aphakia were the 
leading causes of bullous keratopathy19. 

Five cases of bilateral blindness were found in our 
study. Sixty nine penetrating keratoplasties were 
performed at our hospital although we offered this 
treatment to 278 patients. The indication and outcome 
of penetrating keratoplasty at our hospital has been 
published elsewhere20. The reason why most patients 
refused surgical option was high cost and persistent 
follow ups required post operatively. 

Our study has the following limitations. It was a 
retrospective one, with relatively small number of 
patients. The patients belonged to a heterogeneous 
group and were not standardized. The findings of our 
study cannot be extrapolated to the general population 
of Pakistan. 

Due to the difficulty of treating corneal blindness 
once it has occurred, public health prevention 
programmes are the most cost-effective means of 
decreasing the global burden of corneal blindness21. 
There is a need for community based study on the 
aetiology of corneal blindness and programme for 
prevention of the major causes. 

 
CONCLUSION 
Corneal blindness can result from a wide variety of 
causes, depending upon the community and strata of 
the population. Corneal diseases are common in the 
population studied with Microbial Keratitis as the 
most common condition. Health-promotion strategies 
have to be developed and implemented to raise 
awareness about the causes and prevention of corneal 
blindness in developing countries like Pakistan. 
 
Author’s affiliation 
Dr. Nasir Bhatti 
Assistant Professor 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 
Dr. Muhammad Umar Fawad 
Postgraduate trainee 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 
Dr. Munawar Hussain 
Postgraduate trainee 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 



 194

Dr. Umair Qidwai 
Postgraduate trainee 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 
Dr. Mazhar Ul Hasan 
Assistant Professor 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 
Dr. Aziz Ur Rehman 
Associate Professor 
Isra Postgraduate Institute of Ophthalmology / 
Al-Ibrahim Eye Hospital Malir Karachi 
 
REFERENCE 
1. Resnikoff S, Pascolini D, Etya'ale D, et al. Global data on 

visual impairment in the year 2002. Bull World Health Organ. 
2004; 82: 844-51. 

2. Gilbert C, Foster A. Childhood blindness in the context of 
VISION 2020-the right to sight. Bull World Health Organ. 2001; 
79: 227-32. 

3. Dineen B, Bourne RRA, Jadoon Z, et al. Causes of blindness 
and visual impairment in Pakistan. The Pakistan national 
blindness and visual impairment survey. British Journal of 
Ophthalmology. 2007; 91: 1005-10. 

4. Smith GT, Taylor HR. Epidemiology of corneal blindness in 
developing countries. Refract Corneal Surg. 1991; 7: 436-9. 

5. Gopinathan U, Sharma S, GN. R. Review of epidemiological 
features, microbial diagnosis and treatment outcome of 
microbial keratitis. Experience over a decade. Indian J 
Ophthalmol. 2009; 57: 273-9. 

6. Keshav BR, Zacheria G, Ideculla T, et al. Epidemiological 
characteristics of corneal ulcers in South Sharqiya Region. 
Oman Medical J. 2008; 23: 1-6. 

7. Gonzales CA, Srinivasan M, Whitcher JP, et al. Incidence of 
corneal ulceration in Madurai district, South India. Ophthalmic 
Epidemiol. 1996; 3: 159-66. 

8. Vajpayee RB, Sharma N, Chand M, et al. Corneal 
superinfection in acute hemorrhagic conjunctivitis. Cornea. 
1998; 17: 614-7. 

9. Garg P, Rao GN. Corneal ulcer: diagnosis and management. 
Community Eye Health. 1999; 12: 21-3. 

10. Upadhyay MP, Karmacharya PC, Koirala S, et al. The 
Bhaktapur eye study: ocular trauma and antibiotic prophylaxis 
for the prevention of corneal ulceration in Nepal. Br J 
Ophthalmol. 2001; 85: 388-92. 

11. Tuft SJ. Suppurative keratitis. Br J Ophthalmol. 2003; 87:127. 
12. Musch DC, Niziol LM, Stein JD, et al. Prevalence of Corneal 

Dystrophies in the United States: Estimates from Claims Data. 
Investigative Ophthalmology & Visual Science. 2011; 52: 6959-
63. 

13. Jonasson F, Oshima E, Thonar EJ, et al. Macular corneal 
dystrophy in Ireland: a clinical, genealogic, and 
immunohistochemical study of 28 patients. Ophthalmology. 
1996; 103: 1111-7. 

14. Gwilliam R, Liskova P, Filipec M et al. Posterior 
polymorphous corneal dystrophy in Czech families maps to 
chromosome 20 and excludes the VSX1 gene. Invest 
Ophthalmol Vis Sci. 2005; 46: 4480–4. 

15. Khor WB, Wei RH, Lim L, et al. Keratoconus in Asians: 
demographics, clinical characteristics and visual function in a 
hospital-based population. Clin Experiment Ophthalmol. 39: 
299-307. 

16. Kennedy RH, Bourne WM. A 48-year clinical and 
epidemiologic study of keratoconus. Am J Ophthalmol. 1986; 
101: 267-73. 

17. Jonas JB, Nangia V, Matin A, et al. Prevalence and 
associations of keratoconus in rural maharashtra in central 
India: the central India eye and medical study. Am J 
Ophthalmol. 2009; 148: 760-5. 

18. Bartholomew RS. Spheroidal degeneration of the cornea. 
Prevalence and association with other eye diseases. Doc 
Ophthalmol. 1977; 43: 325-40. 

19. Shimazaki J, Amano S, Uno T, et al. National survey on 
bullous keratopathy in Japan. Cornea. 2007; 26: 274-8. 

20. Bhatti MN, Zaman Y, Mahar PS. Outcome of Penetrating 
Keratoplasty from a Corneal Unit in Pakistan. Pak J 
Ophthalmol. 2009; 25. 

21. Gilbert C. Childhood Blindness: Major causes and strategies 
for prevention. Community Eye Health. 1993; 11: 3-6.