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R. P. Maurya, et al. 

86      Vol. 28, No. 2, Apr – Jun, 2012 Pakistan Journal of Ophthalmology 

Original Article 
 

Prevalence of Oculo-Visual Disorders 
amongst University Students in Varanasi 
District, North India 
 
R.P. Maurya, Prashant Bhushan, V.P. Singh, M. K. Singh, O.P. Upadhyay, P.R. Sen 
 

Pak J Ophthalmol 2012, Vol. 28 No. 2 
 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  . .  
See end of article for 
authors affiliations 
 
…..……………………….. 
 
Correspondence to: 
R.P. Maurya 
B-33/10 x 2 C-1 Rohit Nagar 
Extn., Naria 
B.H.U., Varanasi -221 005 
(U.P.), INDIA 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
…..……………………….. 

Purpose :  (a) To estimate the magnitude of various Oculo-visual disorders 
amongst the University students (b) to find out the factors responsible for the 
cause of ocular disorders and (c) to suggest possible intervention and preventive 
strategies for the same.  
Material and Methods: This Prospective study was conducted in Student Health 
Care Complex and Department of Ophthalmology, Sir Sundar Lal Hospital, 
Institute of Medical Sciences of Banaras Hindu University, Varanasi, India. 
20,680 students between 15 – 45 years age group were included in this study, 
which was carried out from September 2009 to August 2010. A detailed clinical 
history and complete ophthalmic examination of all the students was conducted 
including best corrected visual acuity, refraction, slit lamp biomicroscopy, Intra 
Ocular Pressure (IOP) measurement, extra ocular movements and fundus 
evaluation with direct ophthalmoscope. Clinical details were recorded in a pre-
designed and pre-tested proforma. After a thorough examination, a provisional 
ocular diagnosis was made and treatment started accordingly. 
Result:  Out of the 20680 students who visited university students’ health care 
complex, 4054 had various ocular disorders. The commonest ocular morbidities 
observed were refractive errors (39.78%) followed by conjunctivitis (30.64%), 
blepharitis (16.85%), computer vision syndrome (10.73%), stye (8.68%), ocular 
injuries (8.16%) and others (1.92%). 18.92% students had more than one ocular 
disorders. 
Conclusion: Majority of these ocular morbidities need attention as they are 
preventable and treatable. Hence health education, regular eye checkup and 
screening are advocated. 

 
cular problems are frequently noted in the 
student community can affect the student’s 
performance in University and restricts their 

chances in educational and occupational opportu-
nities. Studies on ocular morbidities amongst 
University students are few and largely confined to 
school children1-7. This study was therefore designed 
to estimate the prevalence of ocular disorders among 
students of a large residential university and also to 
determine the factors responsible for ocular disorders 
and to suggest possible intervention and preventive 
strategies. Information obtained from the study will 

help university administration in planning primary 
eye care in university student’s health care complex. 

 
MATERIAL AND METHODS 
This prospective, non-randomized, selectively 
analyzed, single-centre pilot study was conducted 
amongst university students of a large residential 
university with more than 30,000 students enrolled. 
Out of 20680 students who attended the university 
student’s health care complex for various health 
problems, 4054 students with various ocular disorders 

O 



Prevalence of Oculo-Visual Disorders amongst University Students in Varanasi District, North India 

Pakistan Journal of Ophthalmology Vol. 28, No. 2, Apr – Jun, 2012      87 

were included in this study from September 2009 to 
August 2010. 

All the students underwent a detailed clinical 
history including present and past complaints, their 
routine study hours, use of computers and spectacles 
history. Ocular examination included visual acuity 
(unaided, pinhole and with glasses) assessed by using 
Snellens chart from a distance of six meters, extra 
ocular movements, alignment, cover tests, 
convergence test using RAF rule, retinoscopy under 
mydriasis and subjective refraction. Colour vision test 
with the help of Ishihara chart, anterior segment 
examination with torch, magnifying binocular loupe, 
fundus examination with direct ophthalmoscope and 
slit lamp biomicroscopy were also done. The 
particulars were recorded in a pre-designed and pre-
tested Proforma. 

The diagnostic criteria of refractive errors used in 
our study are as follows: Myopia was diagnosed if 
refractive error was minus 1.0 diopter spherical or 
more, hypermetropia was diagnosed if it is plus 1.0 
diopter spherical or more and astigmatism was 
recorded if it is more than 0.75 diopter cylinder and 
anisometropia with difference of one dioptre spherical 
equivalent in between two eyes. 

Data was analyzed by using SPSS. The Chi Square 
test of significance was applied to analysis. A p value 
of less than 0.05 was considered as significant. 

 
RESULTS  
Out of 20680 students who visited the university 
student’s health care complex in one year period, 4054 
(19.6%) had ocular diseases. Amongst them 2894 
(71.39%) were males and rest 1160 (28.61%) were 
females. 1873 (46.20%) were those students who 
belonged to IT, Medical, Management and research 
stream (technical students) and 2181 (53.80%) were 
from arts, science, social sciences and other allied 
subjects (general stream students). The prevalence of 
ocular diseases was highest (38.83%) amongst 20-24 
years age group, followed by the 25-29 years (25.33%) 
and 15-19 years of (25.06%) (Table 1). 

Ocular disorders were more prevalent in male 
study subjects (2894, 71.39%). The major ocular 
disorders observed in the study were refractive errors, 
conjunctival disorders, lid disorders, computer vision 
syndrome and eye injuries (Table 2). 3287 (81.08%) 
students had single ocular morbidity while 767 
(18.92%) had more than one ocular morbidity (Table 
3). Out of 767 study subjects who presented with more 

than one ocular morbidity, 263 (6.49%) belonged to 
age group 20 – 24 years. 

Refractive error was the most prevalent ocular 
disorder occurring in 1613 (39.78%) students. The 
prevalence rate for myopia was 21.41% as compared to 
hypermetropia (14.89%) and astigmatism (3.48%), 
which was statistically significant (χ2 test of 
significance). The refractive error was more prevalent 
among males (967, 23.85%) as compared to females 
(646, 15.93%) (Table 4). Refractive error was more 
common among the technical students (22.20%) like 
students of IT, Medical, Management and research 
stream as compared to students of general stream 
(17.58%). In this study myopia of less than -3 diopter 
spherical was found in 12.38% and relatively high 
myopia (more than -6 diopter spherical) was observed 
in 9.03% cases. Higher grades of myopia was more 
prevalent in female students. The incidence of myopia 
gradually decreased with advancement of age. 

Conjunctival diseases were the second most 
common ocular morbidity observed in 1242 (30.64%) 
students. Allergic conjunctivitis was observed in 603 
(14.87%) students. Infective (bacterial/viral) 
conjunctivitis due to epidemics was seen in 618 
(15.24%) students while 21 (0.52%) students had 
contact lens related conjunctival disorders. Disorders 
of the lid were the third common cause of ocular 
morbidity. 683 (16.85%) students had blepharitis, 352 
(8.68%) had stye while 435 (10.73%) students had 
computer vision syndrome. 331 (8.16%) study subjects 
had various eye injuries including insect crawling and 
foreign body (Table-2). Other less common ocular 
disorders observed in this study were squint (0.52%), 
ptosis (0.30%), posterior segment pathology (0.91%) 
and colour blindness (0.07%) (Fig. 1). Prevalence of 
ocular disorders weas higher during March to 
October, with peak in month of September (13.07%) 
and August (11.98%). 
 
DISCUSSION  
Out of the 20680 study subjects, 4054 (19.6%) had 
ocular disorders. Prevalence rate of ocular morbidity 
amongst school going children as reported in various 
studies were Rajesh Kumar et al. (24.6%)1, Ajaiyeoba 
AI et al. (15.5%)8, Rosek et al. (28.8%)9 and Nepal BP et 
al. (11.0%)3. In our study prevalence of ocular 
morbidity decreased with age, with minimum of 152   
(3.75%) in age group 35 years and above and 
maximum of 1574 (38.83%) in 20 – 24 years age group, 
which was clinically significant (P<0.05, χ2 test of 
significance). Unlike this study Rajesh Kumar et al1



R. P. Maurya, et al. 

88      Vol. 28, No. 2, Apr – Jun, 2012 Pakistan Journal of Ophthalmology 

Table 1: Distribution of ocular morbidity according to age and sex 

Age group (Yrs) Male n %) Female n (%) No. of patients n (%) 

15-19 706(17.41) 310(7.64) 1016(25.06) 

20-24 1166(28.76) 408(10.06) 1574(38.83) 

25-29 689(17.00) 338(8.34) 1027(25.33) 

30-34 159(3.92) 79(1.95) 238(5.87) 

35-39 104(2.57) 19(0.47) 123(3.04) 

>40 70(1.73) 6(0.15) 76(1.87) 

Total  2894(71.39) 1160(28.61) 4054(100.0) 
 
Table 3: Distribution According to Age and Number of Morbidity 

Age group (Yrs) One Disease n (%) Two Disease n (%)  No. of patients n (%) 

15-19 844 (20.82) 172(4.24) 1016(25.06) 

20-24 1311(32.34) 263(6.49) 1574(38.83) 

25-29 817(20.15) 210(5.18) 1027(25.33) 

30-34 140(3.45) 98(2.42) 238(5.87) 

35-39 102(2.52) 21(0.52) 123(3.04) 

>40 73(1.80) 3(0.07) 76(1.87) 

Total  3287(81.08) 767(18.92) 4054(100.0) 
 
Table 4: Distribution of Refractive Errors 

Type of Refractive error  Male n (%)  Female n (%)  No. of patients n (%) 

Myopia  476(11.74) 392(9.67) 668(21.41) 

Hypermetropia  401(9.89) 203(5.00) 604(14.89) 

Astigmatism  90(2.22) 51(1.26) 141(3.48) 

Total  967(23.85) 646(15.93) 1613(39.78) 
 

Table 2: Distribution of Ocular Morbidity by Type 
Ocular morbidity  No. of patients n (%) 

Refractive errors  1613(39.78) 

Conjunctivitis  1242(30.64) 

Blepharitis 683(16.85) 

Computer Vision Syndrome  435(10.73%) 

Stye 352(8.68%) 

Traumatic Eye Injury 331(8.16%) 

Others  78(1.92%) 

Total  4054(100.0) 
 

 

Fig. 1 : Month wise distribution of ocular morbidity 



Prevalence of Oculo-Visual Disorders amongst University Students in Varanasi District, North India 

Pakistan Journal of Ophthalmology Vol. 28, No. 2, Apr – Jun, 2012      89 

reported increased prevalence of ocular morbidity 
with age, being minimum (17.5%) in 5 – 6 years age 
group and maximum (37.5%) in 30 – 40 years age 
group. This is because both the study used population 
of non-comparable age. Studies of ocular morbidity 
among University students could not be found in 
literature despite our best efforts. 

The distribution of ocular morbidities in this study 
were refractive errors (39.78%), Conjunctivitis 
(30.64%), Blepharitis (16.85%), computer vision 
syndrome (10.73%), Stye (8.68%), eye injury (8.16%) 
and others (1.9%) quite in contrast to the study done in 
school children where refractive errors (5.4%) are 
followed by conjunctivitis (4.6%), trachoma (4.3%) and 
vitamin A deficiency (4.1%)1. 

The number of students with two or more ocular 
diseases was 767 (18.92%), which was higher as 
compared to studies on school children (4%)1. This is 
due to cumulative effect of diseases like refractive 
error and conjunctivitis, as there is possibility of 
greater exposure to pathogen/allergen in older 
students on account of more outdoor activities leading 
to higher incidence of conjunctivitis. The ocular 
morbidities were more in summer and rainy seasons 
with peak during month of August (11.98%) and 
September (13.07%), this is most likely due to 
outbreaks of epidemic conjunctivitis and 
entomological factors like insect crawling, insect bite 
etc. The prevalence was least in month of January 
(4.54%) due to cold climate, which limits outdoor 
activities, University examination and low attendance 
of students in university students in health care 
complex. 

In this study, refractive error was the most 
prevalent ocular disorder seen in 1613 (39.78%) 
students, which is greater than the WHO’s range of 2-
10%.10 Refractive errors were the most common ocular 
problems in the various studies conducted by 
Ajaiyeoba AI et al (5.8%),8 Rajesh Kumar et al (5.4%),1 
Nepal BP et al (8.1%),3 Adegbehingbe BO et al 
(13.5%)11 and Ho C-SD et al (22.3%).12 In our study 
refractive error was slightly more common in technical 
students (22.2%) than non-technical ones (17.58%). 
Similar pattern was observed in study conducted 
amongst the Singapore teenagers (uncorrected 
refractive error among express students 19.6%, normal 
academic students 20.5% and technical students were 
31.1%)12. Among the refractive errors, myopia was 
most common, constituting 21.41% followed by 
hypermetropia (14.89%) and astigmatism (3.48%). 
However, findings of Kleinstein RN et al. study 

(Myopia 9.2%, hyperopia 12.8% and astigmatism 
28.4%)9 and Nepal BP et al. study (Myopia 4.3%, 
hypermetropia 1.3% and astigmatism 2.5%)3 are 
contrary to our findings. Amongst diseases of 
conjunctiva, infective (15.24%) and allergic conjunct-
tivitis (14.87%) were the most common, which may be 
due to increase in concentration of allergens in 
University campus, over crowding and poor ocular 
hygiene among students. Contrary to our finding 
prevalence of allergic conjunctivitis was reported to be 
49% by Adegbehingbe BO et al11 and 7.4% by 
Ajaiyeoba AI et al8. Third common cause of ocular 
disorders was diseases of lids like blepharitis (16.85%) 
and stye (8.68%), which did not pose any threat to 
vision. The environmental factors including poor 
ocular hygiene, acne, seborrhic dermatitis or dandruff 
may contribute to the aetiology of above diseases of 
the eyelids in our study. 

Computer vision syndrome was seen in 10.73% 
university students, majority of whom belonged to 
technical students having tendency of late night study 
and prolonged work on computer. 
 
CONCLUSION  
Majority of ocular problems observed in our study 
were either preventable or treatable. To reduce ocular 
morbidity amongst university students, health 
education towards eye care, regular eye examination, 
correction of refractive errors and use of protective 
eyewear are advocated. 
 
Author’s affiliation 
Dr. R.P. Maurya 
Medical Officer 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University 
Varanasi-221 05, (U.P.) INDIA 

Dr. Prashant Bhushan 
Assistant Professor 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University 
Varanasi-221 05. (U.P.) INDIA 

Dr. V.P. Singh 
Professor 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University, Varanasi-221 05, 
(U.P.) INDIA 



R. P. Maurya 

90      Vol. 28, No. 2, Apr – Jun, 2012 Pakistan Journal of Ophthalmology 

Dr. M. K. Singh 
Professor 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University, Varanasi-221 05 
(U.P.) INDIA 

Dr. O.P. Upadhyay 
Chief Medical Officer 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University, Varanasi-221 05 
(U.P.) INDIA 

Dr. P.R. Sen 
Senior Medical Officer 
Sir Sundarlal Hospital 
Institute of Medical Sciences 
Banaras Hindu University, Varanasi-221 05 
(U.P.) INDIA 

 
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