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EYE AND VISION PROBLEMS IN CHILDREN WITH DOWN'S
SYNDROME
J.
Margaret Woodhouse (UK)
The problems
Most people are now aware that children with Down's Syndrome
are much more at risk of eye disorders than are children who do
not have Down's Syndrome. They are much more likely to be born
with congenital cataracts, sometimes requiring an eye operation
at a very young age, more likely to have nystagmus ('wobbly' eyes,
which continually move, usually from side to side), and more likely
to suffer from sticky eyes, blepharitis (inflammation of the margins
of the eyelids) and conjunctivitis. As they get to their teens
and twenties, they are more at risk of developing cataracts and
keratoconus (distortion of the cornea).
In addition to the conditions listed above, children and adults
with Down's Syndrome are more likely to have long or short sight,
requiring spectacle correction, and squints (eye-turns). And they
are not alone: children with all forms of intellectual disability
(including those with no specific diagnosis) are more likely to
have eye problems needing attention. The following table lists
the prevalence of eye problems amongst children with different
disabling conditions.
|
Eye Problems
|
Controls
|
Down's Syndrome
|
Cerebral Palsy
|
Autism
|
Fragile X
|
| Long/short sight |
4.5
|
42
|
40-76
|
0.12
|
76
|
| Difficulty focusing at near |
?
|
75
|
42
|
?
|
?
|
| Squint |
4-7.5
|
48
|
54
|
21
|
30
|
| Poor detail vision |
0
|
95
|
24
|
53
|
?
|
The reasons why children with intellectual disabilities should
so commonly have eye problems are as yet unknown. Our work in
the Cardiff Down's Syndrome Vision Research Unit is beginning
to suggest some of the answers.
The Down's Syndrome Vision Research
Unit
The group was founded in 1992 by Professor Bill Fraser (Welsh
Centre for Learning Disabilities) and myself. With original funding
from the Down's Syndrome Association and later from the Medical
Research Council, the National Lottery Charities Board, Mencap
City Foundation, PPP Healthcare and the National Eye Research
Centre, we have supported a succession of research assistants
and associates who have made invaluable discoveries about the
course of visual development in children with Down's Syndrome.
Our greatest asset is the cohort of children and their families
from all parts of South and West Wales who have been part of our
study for many years. They have welcomed us into their homes,
and travelled long distances to take part in studies at the University
research clinics. We currently have over 110 children in the study
group. Teachers are also playing a role in the research by allowing
us to see the children in the school environment and helping us
to determine the effects of spectacles on the children's school
performance.
Development of long and short sight
In order to appreciate the problems that arise in children with
Down's Syndrome, we need first of all to look at development in
children who do not have Down's Syndrome. At birth, many babies
are long or short sighted; the average is 3 dioptres of long sight
but the spread of refractive errors can be very wide. Over the
first few years of life, the usual course of events is for children
to outgrow these baby errors. The state of 'zero error' is called
emmetropia, so the process of eyes growing towards this state
is called emmetropisation. The more long or short sighted the
eyes are to begin with, the faster the growth. There is plenty
of evidence that emmetropisation is an active process, rather
than a passive growth, and the mechanisms are not yet understood.
By school-age most children have no error or an insignificant
amount of long sight. (The 'norm' in the general population is
a small amount of long sight, about 1 to 1.5 dioptres; most people
who do not wear glasses are, in fact, long sighted).
Our studies have shown that, at a very young age, children with
Down's Syndrome have the same spread of refractive errors as do
children who do not have Down's Syndrome. However, over the early
years, the children tend not to emmetropise, that is, they do
not outgrow the baby errors. Some children are lucky: they begin
in babyhood with no or a very small error and maintain the state
of emmetropia. Others begin with long or short sight and stay
that way, while still others become more long or short sighted.
The distribution of errors among children with Down's Syndrome
widens with age rather than narrows, and by school age as many
as 40-45% will need to wear glasses.
Visual Acuity (detail vision)
At birth, detail vision is quite poor for all children, and rapidly
develops over the first two to three years. (We cannot be precise
about when a child sees as well as an adult, because the detail
vision which we record depends a great deal on the test that we
use to measure it. The same child tested in three different ways
will have three different levels of vision recorded). Children
with Down's Syndrome do the same, but it appears that most lag
behind their peers at every age. The difference is small, the
equivalent of perhaps one or two lines on a conventional letter
chart, and is there even when children are wearing glasses that
correct any long or short sight.
One reason why we might record a poorer visual acuity for children
with Down's Syndrome is that the children might under-perform
on the test. Children with intellectual disabilities might simply
not try as hard when a test becomes difficult. One of our latest
studies, still ongoing, is to measure acuity objectively. We use
EEG techniques to record the brain's responses to visual targets
(EEG's measured this way are known as visual evoked potentials
or VEP's). Our data are showing that even with this technique,
visual acuity is poorer in children with Down's Syndrome than
it is in children who do not have Down's Syndrome..
Accommodation (focusing at near)
Conventionally, we measure visual acuity and refractive errors
for distance targets. However, children spend relatively little
of their time looking into the distance. Children's interests
are mostly close at hand, and this is where most of children's
learning takes place. It is here that we find the greatest differences
between vision in children with Down's Syndrome and children who
do not have Down's Syndrome..
Usually, children focus very easily and very accurately on near
targets and it is only as we approach middle age that we expect
to experience difficulty. We find, however, that most children
with Down's Syndrome focus very poorly- they tend to under-accommodate
by quite a large amount, whatever the distance of the target.
This is consistent for any individual child, and persists even
when the children wear their glasses to correct long sight. This
means that close work, especially in school, must be more difficult
for these children because it is out-of-focus.
We do not yet know the reason for the poor focusing. One explanation
might be that the children's visual system does not recognise
blur as easily as the visual systems of people who do not have
Down's Syndrome. An alternative explanation is that the co-ordination
between the two eyes is weak and might mean that the focusing
mechanism does not get the usual feedback from the alignment of
the two eyes. We have studies underway to examine these possibilities.
Whatever the reason behind this poor focusing, there may be a
link with the other problems that the children develop. Emmetropisation
is not well understood, but seems usually to occur because the
eyes recognise that the image is out of focus, and that can signal
to the growth mechanisms that adjustment in size and shape of
the eyes is needed. It may be that inadequate recognition of blur
causes poor accommodation in people with Down's Syndrome and the
same fault prevents the eyes from achieving proper growth towards
emmetropia. Similarly, the poor focusing means that the eyes have
an out-of-focus image whenever a child looks at near objects,
which is most of the time in young children. This may mean that
fine discrimination mechanisms do not have the opportunity to
develop, and that visual acuity is always poorer than it might
otherwise be. The above links are, for the present, speculative,
but we do have some evidence from our study to back up these possibilities.
Some of the children in our study focus accurately, and have done
consistently since an early age. Some other children are improving
their focusing as they get older. These children and young people
are much less likely to have refractive errors and are much more
likely to have good visual acuity, than the children who focus
poorly.
Our latest study shows that it is possible to dramatically improve
the children's focusing with bifocal spectacles. In a controlled
trial, we supplied bifocals to a group of 17 primary school children
with Down's syndrome, and conventional spectacles to a second
group (the control group). The two groups were matched for all
of the factors that might influence spectacle use or near work,
such as age, cognitive ability, school placement, etc. Over a
20 week trial, the children in the bifocal group consistently
focused more accurately on near work than did the children in
the control group.
In the trial, and now that we prescribe bifocals clinically,
we find that children with Down's syndrome wear bifocals very
successfully. None, so far, have encountered any problems, and
several of the children prefer to wear their bifocals all of the
time rather than keep the for school use. Two children were very
reluctant to wear glasses when they had conventional ones, but
now wear bifocals very happily. In some cases, teachers and classroom
assistants have reported improvement in concentration and quality
of work when the children wear bifocals. We are now, therefore,
recommending that all children with Down's syndrome who show poor
focusing are prescribed bifocals.
The positioning of the bifocal is very important. The
top of the bifocal should lie across the child's pupil (this is
a much higher position than usual for bifocals) so that the child
can look down through the bifocal without effort.
Strabismus (squint or eye-turn)
Amongst children who do not have Down's Syndrome, there is a strong
association between squint and long sight. Most children who have
a squint are appreciably long sighted. The conventional explanation
for the association is that long sight can be overcome by excessive
accommodation. Since accommodation (focusing on near objects)
is linked to convergence (turning the eyes inwards to look at
near objects), excessive accommodation has a tendency to pull
one eye inwards, creating a squint.
Squints are much more common amongst children with Down's Syndrome,
and are not associated with long sight. In our study group, children
who are short sighted, or who have no refractive error are just
as likely to develop a squint as children who are long sighted.
The mechanism for squint may, therefore, be different. Our study
also shows that children who have a squint tend to have poorer
focusing than children without squint. None of the children who
accommodate accurately have a squint. We have already mentioned
that one of the mechanisms for poor focusing might be a lack of
co-ordination between the two eyes. Children with the poorest
co-ordination would then display both the poorest accommodation
and the highest tendency to squint. Alternatively, the out of
focus image resulting from poor focusing might disrupt the development
of finely tuned binocular mechanisms in the visual system and
increase the tendency to squint.
Guidelines
Our work will continue, to uncover the mechanisms that give rise
to the problems which occur in children with Down's Syndrome,
with our ultimate aim the amelioration of such problems in future.
In the meantime, there is much that parents, teachers and other
professionals can do to minimise the impact of the visual problems:
- Children with Down's Syndrome should have regular eye-tests.
Following an initial examination soon after birth for congenital
problems such as cataract, our recommendation would be six monthly
checks from the age of 12 months as refractive errors can develop
quite quickly.
- Every eye-test should include an examination of accommodation
for near tasks. If a child has poor accommodation, then bifocals
should be considered.
- At the end of the eye test, a written report should be given
to parents, the school and any other professionals involved
in the child's care. The report should specify whether glasses
are being prescribed and, if so, when they should be worn and
what benefit is likely; what distance visual acuity has been
recorded and how this differs from the expected value for the
child's age; whether the child focuses accurately close up,
and if this is being treated with bifocals, and the implications
of any other problems such as squint or nystagmus, for example.
- Parents, and especially teachers, should be aware that distance
and near acuity is likely to be poorer than for children who
do not have Down's Syndrome, even if he or she wears glasses.
They should provide tasks (print, pictures and signs) which
are large enough for the child to see easily.
This article was first published on the site in 2002.
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