|Year : 2020 | Volume
| Issue : 4 | Page : 603-607
Causes of delayed presentation of pediatric cataract: A questionnaire-based prospective study at a tertiary eye care center in central rural India
Pradhnya Sen1, Namrata Gupta1, Amit Mohan1, Chintan Shah1, Alok Sen2, Elesh Jain1
1 Pediatric Ophthalmology and Strabismus, Sadguru Netra Chikitsalaya and Post Graduate Institute of a Ophthalmology, Chitrakoot, Madhya Pradesh, India
2 Vitreoretina and Uvea, Sadguru Netra Chikitsalaya and Post Graduate Institute of a Ophthalmology, Chitrakoot, Madhya Pradesh, India
|Date of Submission||04-May-2019|
|Date of Acceptance||22-Oct-2019|
|Date of Web Publication||16-Mar-2020|
Dr. Pradhnya Sen
Consultant and Head of Department, Pediatric Ophthalmology and Strabismus, Children Eye Care Center, Sadguru Netra Chikitsalaya and Post Graduate Institute of Ophthalmology, Jankikund, Chitrakoot, Madhya Pradesh
Source of Support: None, Conflict of Interest: None
Purpose: To find out the sociodemographic, sociocultural, and socioeconomic factors leading to delay in pediatric cataract surgery and its impact on final visual outcome. Methods: A prospective interview-based analytical cohort study was conducted on 156 children aged 0–16 years with either unilateral or bilateral congenital/developmental cataracts. Caregivers were interviewed using a pretested validated questionnaire. Time intervals between recognition by a caregiver to consultation were denoted as Delay-1 and between consultations to surgical intervention as Delay-2. Spearman's rank correlation was used to determine the presence of correlation between causes of delay and visual outcome. Results: The mean age of presentation was 7.78 ± 4.34 years. Mothers were the first informant of the problem (n = 110, 70.5%). Out of 156 children, only 8 (5.1%) children presented to the hospital within 1 month by caregivers and 26 (16.7%) children underwent surgery within 2 months of advice. About 22 (14.1%) children had total cumulative delay of 1–6 months, 11 (7%) had delay of 6–12 months, and 115 (73.71%) had delay of >12 months. The most common cause identified for Delay-1 was unawareness in 41 cases (26.28%), however, for Delay-2 major factor responsible was cost (n = 38, 24.35%). The median preoperative visual acuity was 1.31 logMAR and median postoperative visual acuity at 4 weeks was 0.61 logMAR. (P < 0.001) Less age at surgery, upper socioeconomic status, less time delay, and better preoperative vision were positively correlated to better visual outcomes. Conclusion: Delay in presentation for childhood cataract surgery remains a significant problem in central rural India. Delay in surgery is multifactorial which includes unawareness, cost, misdiagnosis, self-treatment, distance from the hospital, lack of family support, and poor socioeconomic status.
Keywords: Delayed presentation, pediatric cataract, socioeconomic status
|How to cite this article:|
Sen P, Gupta N, Mohan A, Shah C, Sen A, Jain E. Causes of delayed presentation of pediatric cataract: A questionnaire-based prospective study at a tertiary eye care center in central rural India. Indian J Ophthalmol 2020;68:603-7
|How to cite this URL:|
Sen P, Gupta N, Mohan A, Shah C, Sen A, Jain E. Causes of delayed presentation of pediatric cataract: A questionnaire-based prospective study at a tertiary eye care center in central rural India. Indian J Ophthalmol [serial online] 2020 [cited 2020 Apr 4];68:603-7. Available from: http://www.ijo.in/text.asp?2020/68/4/603/280692
Childhood blindness is a high priority of VISION 2020: Right to Sight initiative of World health organization, as it contributes to about 5% of total blindness which is equal to 1.5 million blind children all over. Nearly 14% of this blindness is due to pediatric cataract. The prevalence of childhood cataracts is 1–15 cases per 10,000 live birth in developing countries and in India it contributes about 7.4–15.3% of childhood blindness.
Congenital and developmental cataracts not only reduce visual perception but also interfere with normal visual development, thus potentially causing a severe degree of stimulus-deprivation amblyopia. Hence, early removal of pediatric cataracts is advocated., Factors leading to a persistent shortfall or delay in early surgical removal of cataract in children in developing countries include cost of surgery,,,,, lack of awareness,,, fear of surgery,,, concerns about the quality,,, self and herbal treatment by traditional healer, distance from care providers,,,,,, gender discrimination, age, and lack of family support.
These barriers are important to address as the development of visual impairment at an early age has far-reaching implications on a child's life. As well as delay in surgical intervention leads to subnormal outcomes causing a large burden on the family as a unit and society/nation as a whole., Our hospital as a tertiary eye care center with children eye care facility is catering mostly rural population of central India and seeing children of cataract with either delayed presentation or refusal for surgery even after diagnosis.
Therefore, the aim of this study is to find out the sociodemographic, sociocultural, and socioeconomic factors leading to delay in pediatric cataract surgery and its impact on final visual outcome.
| Methods|| |
This was a prospective interview-based analytical cohort study conducted from September 2016 to August 2017. About 156 children with age range from birth to 16 years with congenital or developmental cataract presented to our institute for the first time were enrolled. Informed consent was obtained from the guardians of all participants. The study was initiated after approval from the institutional review board and in accordance with the tenets of the Declaration of Helsinki.
Caregivers were interviewed immediately on admission using a pretested validated questionnaire which was partly taken from the study done by Claudia et al. in Brazil. [Appendix-1] [Additional file 1]The questionnaire on health-seeking behavior was taken from it. The interview covered basic sociodemographic and economic information of the household. The economic status of children's families was classified into five categories using the Modified Kuppuswamy Socioeconomic Scale.
Time intervals between recognition by a caregiver to presentation to the hospital were denoted as Delay-1. The interval between presentations to the hospital to surgical intervention was represented as Delay-2. The cumulative interval from recognition of problem by caregivers to surgery was represented as Total Delay (Delay1 + Delay2).
All children underwent a comprehensive ophthalmic examination including visual acuity, refraction, anterior segment, and posterior segment assessment. Age-appropriate visual acuity assessment was performed on every child using Teller's grating cards or central, steady, and maintained fixation (CSM) method in infants, Cardiff's acuity test in children aged 1–3 years, LEA symbol in children 3–5 years and Tumbling E or Snellen's chart in children aged more than 5 years. After cataract surgery, follow-up was scheduled at 4 weeks and parameters noted were: visual acuity, anterior and posterior segment evaluation, and spectacle prescription given with appropriate near addition. Postoperative vision gain at 4 weeks has been adjudged without amblyopia treatment.
Descriptive statistical analysis was conducted using the mean ± standard deviation, median, and percentages. Tables and graphs were used to display data as appropriate. Friedman's one-way ANOVA test was used to compare the visual outcome i.e., LogMAR scores preoperative and postoperative at a 1-month interval. Spearman's rank correlation was used to determine the presence of correlation and strength of association between variables. The determinants of outcome were identified accordingly. IBM SPSS version 17 was used to conduct statistical analysis.
| Results|| |
Around 156 children with congenital/developmental cataract were included in the study. The mean age of presentation was 7.78 ± 4.34 years of which 11 were infants. A number of unilateral cataracts were 64 and bilateral cases were 92. Sociodemographic and economic details of the household-based interview were shown in [Table 1].
|Table 1: Demographic details of patients with the socioeconomic status of household|
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Caregivers recognized the eye problem after 1 year of age in 118 children (75.6%). Mothers were the first informant of the problem in 110 (70.5%) cases. In 111 (71.1%) children, care-givers recognized the child's eye problem either as low vision or whitish pupillary reflex in eyes.
Out of 156 children, only 8 (5.1%) children presented to the hospital within 1 month of recognition by caregivers and 26 (16.7%) children underwent surgery within 2 months of surgical advice by ophthalmologist. The duration of Delay-1 and Delay-2 were shown as pie charts in [Figure 1]. Nearly 22 (14.1%) children had total cumulative delay of 1–6 month, 11 (7%) had a delay of 6–12 months and 115 (73.71%) had delay of >12 months. Median delay for unilateral cataract was 2.5 years which is higher than the bilateral cataract (Median – 1.5 years).
|Figure 1: Pie -chart showing the number of children with different time delay for Delay-1 and Delay-2|
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Causes of Delay-1 and Delay-2 were identified in a questionnaire-based interview. The most common cause identified for Delay-1 was unawareness about problem in 41 cases (26.28%), however, for Delay-2 major factor responsible was cost (n = 38, 24.35%). Details of different causes of Delay-1 and 2 with their numbers were shown in [Table 2]. The most common cause for cumulative delay in bilateral cataract was cost or no family support (n = 29, 31.52%) and for unilateral cataract was unawareness of disease (n = 31, 48.34%).
Visual acuity outcome and its correlations with variables
A total of 248 eyes of 156 children were operated. The median preoperative visual acuity was 1.31 logMAR unit and median postoperative visual acuity at 4 weeks was 0.61 logMAR. (P < 0.001) Less age at surgery, upper socioeconomic status, less time delay between recognition, and presentation to the healthcare worker and better preoperative visual acuity were positively correlated to better visual outcomes. [Table 3] shows the correlation between different variables with visual outcomes.
|Table 3: Correlation of variables with improvement in LogMAR Score after 1 month as compared to preoperative vision|
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| Discussion|| |
Congenital and developmental cataracts are common types of cataracts in the Indian population. Since the critical period of vision development is up to 8 years of age, so any cataract that develops in early childhood interferes with normal visual development thus potentially causing amblyopia. Therefore, it is of great concern that any form of visually significant lens opacity should be recognized and removed as early as possible., Although all facilities and resources for surgical treatment for pediatric cataract are available in India, still childhood cataract contributes to 7.4 to 15.3% of childhood blindness in the country.
A majority of children were presented late to the hospital according to different studies done in India which were highlighted by Khanna et al. and Anushree et al. The mean age of presentation was 4.4 years and 7.6 ± 4.2 years in their studies respectively. In our study, the mean age of surgery was 7.78 ± 4.34 years which was higher than the abovesaid studies as most of our patients were of rural populations and they were not aware of the problem. However, previous studies did not focus on reasons for delayed presentation. In the present study, we have tried to find out the various factors causing delay in presentation and surgery of pediatric cataracts.
The major delay occurred between recognition by caregivers and presentation to the hospital. 94.9% (n = 148) presented after 1 month of recognition of problem in our study. The most common cause of this delay was unawareness (26.28%). In a study done by Mwende et al., they reported that families had inadequate knowledge about infant's vision which contributed to the delayed presentation of these children to the hospital. Gogate et al. found that in 38.54% cases, the parents did not feel the need to take the child to hospital as they thought the child was seeing fine and does not need any medical or surgical help. In our study, unawareness can be attributed to the low educational status of the people residing near our hospital as the head of the family was illiterate in 26.92% cases or had only primary education in 24.35% cases. A study conducted by Claudia et al. showed that 16.4% of parents had a low education which correlated positively with the delay in the presentation of the child to healthcare worker.
The mother's educational status might have contributed to the delayed presentation in our study, as the literacy rate of females is only 60% in our area. This factor is important to address as mothers were the first ones to recognize some eye problems in their child (70.5%) but brought the child to healthcare worker only when she noticed decreased vision, which is a late symptom. The effect of the mother's educational status on the child's' early presentation was also seen in few studies.,
Another factor that led to delay was cost. In our study, 20.51% of parents recognized the child's condition but did not go to the hospital because of the costs involved in traveling and treatment. Jaya Thakur et al. in Nepal reported that the cost of travel to the clinic, follow-up cost, and the wage-earning hours of the parents contributed significantly to the delay in cataract surgery of children. Similarly, Gogate et al. found out that the parents of 24.80% children could not afford travel to the hospital.
The other kind of delay seen in our study was the time delay between advice for surgery and surgical treatment in the hospital. About 82.69% of children were presented to the hospital for surgery after 2 months of surgical advice. The cost was one the major reason for this delay as reported by 24.35% of the respondents. Nathan et al. found that free accommodation or financial support led to an early presentation to hospital for management. Erikson et al. advised the subsidized cataract surgery to shorten the Delay-2. Therefore, cost is an important factor that needs to be addressed because 63.46% of our study population belonged to lower socioeconomic groups. In 48.71% cases, the monthly income of the household was <5546 INR and 56.41% were daily wage workers.
The third most common factor that leads to delay in presentation to hospital in 8.33% cases and delay in surgical treatment in 14.74% cases was the distance between the residences of a child from the eye care center. In our study, 133 (95%) out of 156 children lived more than 50 km away from the hospital, out of which 30.7% lived more than 200 km away from the hospital. Gogate et al. reported 20.22% of children presented late because they lived far away from the hospital and did not have access to eye care facilities. Mewende et al. also showed an association between distance to hospital and delay in presentation.
Although the percentage of males (55.76%) and females (44.23%) presented to the hospital for cataract surgery were comparable, the majority of the children who presented early were males (87%). Erikson et al. found that girls were 1.9 times less likely to be brought to the hospital. Although previous studies have noted no gender predisposition to congenital cataracts, these findings could reflect the health-seeking behavior of the population in this region, wherein health issues in a male child are given priority.
In our study, only 13.46% of children were screened at birth for cataracts. This might have led to the delayed presentation of these children as shown by similar results of a study done in China where they emphasized the urgent need to strengthen neonatal screening programs. There will be a recall bias in adolescent children and their parents regarding “screening at birth” in our study. Neonatal screening for cataract has to be incorporated at the village level. This can be done by teaching the village health workers/ASHA worker by the simple red reflex test.
In our study, 10.8% of children had a positive family history, but none of them presented early. These findings were in contrast to findings from a study done in Tanzania wherein they found that parents having one child with history of cataract, had consulted to an ophthalmologist at an early age for their another siblings with similar problems. This fact again points to a higher percentage of unawareness about pediatric cataracts in our study population. Though we have not screened the other siblings, merely asking for a family history may not suffice in ruling out a familial cataract. Cataracts running in different generations of family may be picked up earlier due to aware parents/relatives. This can be a possible factor reducing the delay in some subjects.
Fear of surgery, small age, and no family support are also some of the contributing factors for the delay. Some caregivers came late because they had to take care of other family members. Similar other variables were seen by Gogate et al. This shows that delay in pediatric cataract surgery is multifactorial and measures have to be taken to overcome these factors.
The median preoperative visual acuity in our study was 1.3 log MAR units that improved to 0.6 log MAR units at 4 weeks after cataract surgery. This change in visual acuity was significant (P < 0.001). In our study, 85 (34.2%) eyes had visual acuity of <0.48 log MAR units (equivalent to 6/18 in Snellen chart) at 4 weeks. Similar improvement in postoperative visual acuity is also seen in other studies done in India. Anushree et al. reported that the percentage of eyes having vision <0.48 log MAR units increased from 3.4% to 27%. These figures show that, although there was a delay in cataract surgery in the majority of the children, still there is a possibility of improvement in vision, and thus these children should be operated as early as they come and adequately visually rehabilitated. In contrast, studies from the west have shown a better outcome. In our study, only 34.27% eyes had a postoperative visual outcome of <0.48 log MAR units. This percentage of children was lesser than results of the study done by Richard et al. in which 58% children had a postoperative vision <0.48 log MAR units. A study done by Nathan et al. had a postoperative visual outcome of <0.48 log MAR units in 40% of patients. You et al. showed that 46.8% of children had a visual outcome of <0.48 log MAR units. These studies had better outcome because the mean age of surgery was less and majority of the caregivers recognized the cataract within 6 months of age and brought the child early to hospital and also the interval between the examination and surgery was less than 2 months in majority of the cases.
Our study provides useful insight into the health-seeking behavior of parents of children presenting with developmental cataracts in central rural India. The major limitation of this study is that it is a hospital-based prospective study and not the community-based cross-sectional study which indeed reflects the population problems. Moreover, our setup is a tertiary care hospital so there might be a referral bias. We are yet to evaluate the other factors affecting visual outcomes in pediatric cataracts such as amblyopia, unilateral cataract, squint, and nystagmus which are known for poor visual outcomes. Our study was not a long term longitudinal study, hence, we have presented only an interim data and further studies are required to quantify the final visual outcome with all postoperative rehabilitation measures.
| Conclusion|| |
Our findings suggest that the delay in presentation for childhood cataract surgery remains a significant problem in central rural India even when high-quality surgical services are available within easy reach. Children living in remote areas, who cannot come to the hospital because of distance and poor socioeconomic conditions of their households, needs to be approached by developing bridging strategies that would link communities to hospital. Educational efforts to increase the knowledge of the caregivers about the pediatric cataract should also be warranted to ensure the early presentation of these children for cataract surgery.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Global Initiative for the Elimination of Avoidable Blindness. Vol WHO/PBL/97.61. Geneva: World Health Organization; 1998.
Gilbert C. Blindness in children: Control priorities and research opportunities. Br J Ophthalmol 2001;85:1025-7
Lambert S, Lynn M, Reeves R, Plager D, Buckley E, Wilson M. Is there a latent period for the surgical treatment of children with dense bilateral congenital cataracts? J AAPOS 2006;10:30-6.
Medsinge A, Nischal KK. Pediatric cataract: Challenges and future directions. Clin Ophthalmol 2015;9:77-90.
Birch EE, Swanson WH, Stager DR, Woody M, Everett M. Outcome after very early treatment of dense congenital unilateral cataract. Invest Ophthalmol Vis Sci 1993;34:3687-99.
Kessy J, Lewallen S. Poverty as a barrier to accessing cataract surgery: A study from Tanzania. Br J Ophthalmol 2007;91:1114-6.
Rabiu M. Cataract blindness and barriers to uptake of cataract surgery in a rural community of northern Nigeria. Br J Ophthalmol 2001;85:776-80.
Vaidyanathan K, Limburg H, Foster A, Pandey RM. Changing trends in barriers to cataract surgery in India. Bull World Health Organ 1999;77:104-9.
Fletcher A. Low uptake of eye services in rural India. Arch Ophthalmol 1999;117:1393.
Melese M, Alemayehu W, Friedlander E, Courtright P. Indirect costs associated with accessing eye care services as a barrier to service use in Ethiopia. Trop Med Int Health 2004;9:426-31.
Yin Q, Hu A, Liang Y, Zhang J, He M, Lam D, et al.
ATwo-site, population-based study of barriers to cataract surgery in Rural China. Invest Ophthalmol Vis Sci 2009;50:1069.
Gyasi M, Amoaku W, Asamany D. Barriers to cataract surgical uptake in the upper east region of Ghana. Ghana Med J 2007;41:167-70.
Chibuga E, Massae P, Geneau R, Mahande M, Lewallen S, Courtright P. Acceptance of cataract surgery in a cohort of Tanzanians with operable cataract. Eye (London) 2008;22:830-3.
Smith A, Smith J. The economic burden of global blindness: A price too high! Br J Ophthalmol 1996;80:276-277.
Leite C, Zin A. Health seeking behavior of the families of children with cataract attending an eye clinic in Rio de Janeiro, Brazil. Arq Bras Oftalmol 2011;74:271-8.
Shaikh Z, Pathak R. Revised Kuppuswamy and B G Prasad socio-economic scales for 2016. Int J Community Med Public Health 2017;4:997-9.
Amaya L, Taylor D, Russell-Eggitt I, Nischal K, Lengyel D. The Morphology and Natural History of Childhood Cataracts. Surv Ophthalmol 2003;48:125-44.
Lesueur L, Arne J, Chapotot E, Thouvenin D, Malecaze F. Visual outcome after paediatric cataract surgery: Is age a major factor? Br J Ophthalmol 1998;82:1022-5.
Khanna RC, Foster A, Krishnaiah S, Mehta MK, Gogate PM. Visual outcomes of bilateral congenital and developmental cataracts in young children in south India and causes of poor outcome. Indian J Ophthalmol 2013;61:65-70.
] [Full text]
Anushree K, Nikhil R, Shubhi T, Sudhir T, Madan D. Evaluation of visual outcomes after pediatric cataract surgery in a Tertiary Eye Care Hospital in Western Maharashtra. J Clin Ophthalmol Res 2016;4:13. [Full text]
Mwende J, Bronsard A, Mosha M, Bowman R, Geneau R, Courtright P. Delay in presentation to hospital for surgery for congenital and developmental cataract in Tanzania. Br J Ophthalmol 2005;89:1478-82.
Gogate P, Kulkarni A, Mahadik A, Mane R, Borah R, Patil S, et al.
Barriers to follow-up for pediatric cataract surgery in Maharashtra, India: How regular follow-up is important for good outcome. The Miraj Pediatric Cataract Study II. Indian J Ophthalmol 2014;62:327.
Thakur J, Reddy H, Wilson M, Paudyal G, Gurung R, Thapa S, et al
. Pediatric cataract surgery in Nepal. J Cataract Refract Surg 2004;30:1629-35.
Congdon N, Ruiz S, Suzuki M, Herrera V. Determinants of pediatric cataract program outcomes and follow-up in a large series in Mexico. J Cataract Refract Surg 2007;33:1775-80.
Eriksen J, Bronsard A, Mosha M, Carmichael D, Hall A, Courtright P. Predictors of poor follow-up in children that had cataract surgery. Ophthalmic Epidemiol 2006;13:237-43.
Ma F, Ren M, Wang L, Wang Q, Guo J. Visual outcomes of dense pediatric cataract surgery in eastern China. PLoS One 2017;12:e0180166.
Bowman R, Kabiru J, Negretti G, Wood M. Outcomes of bilateral cataract surgery in Tanzanian children. Ophthalmology 2007;114:2287-92.
You C, Wu X, Zhang Y, Dai Y, Huang Y, Xie L. Visual impairment and delay in presentation for surgery in Chinese pediatric patients with cataract. Ophthalmology 2011;118:17-23.
[Table 1], [Table 2], [Table 3]