Amblyopia Clinical Trial
Official title:
Disinvestment Study of Population-Based Vision Screening in Preverbal Children in the Netherlands
The purpose of this study is to determine the optimal screening intervals and cost-effectiveness of population-based vision screening in preverbal children in the Netherlands.
Amblyopia (prevalence 3 - 4%)is a preventable, unilateral loss of vision in young children,
in most cases caused by strabismus (squint) or unilateral hypermetropia (need of plus
glasses), or both. The sensitive period in which vision loss can develop and be recovered, by
covering the better eye with a patch, is up to 6 years of age. Population-based programs for
child vision screening exist in Sweden, the United Kingdom, Canada, eastern European
countries and the Netherlands. Measurement of visual acuity at age four (preschool) is most
common. In some countries, including Canada and the Netherlands, preverbal screening of
visual function in infants and young children (age 0 - 2) has been added to the screening
program. In the Netherlands, it is applied during the regular visits at ages 1-2, 3-4, 6-9,
14-24 months. At the age of 36 months, monocular visual acuity is tested with a picture
chart. At the age of 45 and 60 months, monocular visual acuity is measured with the Landolt-C
chart. In 1996, the investigators started a follow-up study of a birth cohort in Rotterdam
(RAMSES) to determine the sensitivity, specificity and effectiveness of the screening
program. A diagnosis of amblyopia was made in 100 (3.4%) of 2,964 children and was caused by
refractive error (42), strabismus (19), both combined (30) or deprivation (7). It was found
that most cases of amblyopia were detected by vision screening with measurement of visual
acuity from age 3 years onwards. Preverbal screening enabled earlier detection of strabismus
amblyopia, but not at all of refractive amblyopia.
The investigators therefore propose a disinvestment study of vision screening, with omission
of screening at age 6-9 and 14-24 months. First, the optimal screening intervals are
calculated with a newly developed micro-simulation model for effectiveness of repeated
screening, on the basis of the data obtained in the RAMSES study. The model simulation
predicted that screening at age 6-9 and 14-24 months can be omitted without an appreciable
loss of number of detected amblyopia cases. This will be tested in a RCT among two large
youth health care organisations, ICARE (12,500 new children annually) and GGD-Amsterdam. Two
large birth-cohorts will be recruited. Children born between July and December 2011 will form
our control group and will be examined at 6-9, 14-24, 36 and 45 months. Children born between
January and June 2012 will be our intervention group. These children will be examined only at
36 and 45 months.
Endpoint is the number of cases of amblyopia detected, weighted for visual acuity, against
age at detection. The question is whether a significant difference between groups can be
found in the cumulative number of cases of amblyopia detected up to the age of 4 years. The
new model for optimising screening intervals will be developed further in the course of the
study into a generic tool for determining optimal screening intervals in any screening
program with repeated exams for young children and should ultimately allow for comparison of
effectiveness of population-based screening programs for different disorders in different
countries, carried out by different personnel. Finally, in the RAMSES study 23% of the
children screened positively had not been referred successfully to an ophthalmologist or
orthoptist; 43% of their parents had low to moderate fluency in the Dutch language. This
reflects lack of utilisation among immigrants of preventive screening and a faltering transit
from prevention to care. Unsuccessful referral, in relation to parental fluency in Dutch,
ethnicity and SES will, hence, be monitored in the study in an exploratory fashion.
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