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Anisometropia is an
optical state with unequal refraction of the two eyes. The amount of spherical
refractive error (myopia or hypermetropia) is usually about the same for both
the eyes in most of the people. Generally, anisometropia is considered to exist
if the refraction differs by 1.0 dioptres (D) or more for the two eyes. The
measuring unit for refractive error is dioptre (D), which is defined as the
reciprocal of the focal length in meters. Anisometropia is the most insidious
refractive condition because it is often asymptomatic. The term antimetropia is used when one eye is myopic
and the other is hypermetropic.
The
word anisometropia is derived from the Greek words anisos (unequal), metron
(measure), and ops (vision).
Emmetropia is
the condition where the eye has no refractive error and requires no correction
for distance vision. Refractive power of the eye is determined predominantly by
variables like power of the cornea, power of the lens, and axial length of the
eyeball. In emmetropia, these three components of refractive power combine to
produce normal refraction to the eye. In an emmetropic eye, rays of light
parallel to the optical axis focuses on the retina. The far point in emmetropia
(point conjugate to retina in non- accommodating state) is optical infinity,
which is 6 meters. Ametropia (refractive error) results when cornea and lens
inadequately focus the light rays.
The
term ametropia (refractive
error) describes any condition where light is poorly focused on light sensitive
layer of eye, resulting in blurred vision. This is a common eye problem and
includes conditions such as myopia (near-sightedness), hypermetropia (far-sightedness), astigmatism,
and presbyopia (age-related
diminution of vision).
Anisometropia
due to refractive myopia or hypermetropia is known as refractive anisometropia and
that due to axial ametropia is known as axial
anisometropia. Anisometropia due to difference in
refractive error along one meridian only is called meridional anisometropia.
In
myopic anisometropia, one expects the distance visual acuity in each eye to be
lower than normal, the more myopic eye having the poorer visual acuity.
However, when the amount of myopia in the less myopic eye is small (minus 0.25
or 0.50 D), the visual acuity in that eye is sufficiently good so that the
patient may not be aware of the problem, even if the visual acuity in the more
myopic eye is quite poor.
In
hypermetropic anisometropia, the visual acuity of both eyes is relatively good
as long as the patient has sufficient accommodation.
In
myopic anisometropia, hypermetropic anisometropia and antimetropia, the
individual may not have complaint of asthenopia (eyestrain) and the
anisometropia may be discovered during routine eye examination only. However,
some cases of hypermetropic anisometropia may have asthenopia due to their
inability to focus simultaneously.
Because
both the eyes accommodate equally, an uncorrected anisometrope has the problem
of never having sharply focused image on both retinas at the same time. For
example, a person with 0.25 D of myopia in one eye and 3 D of myopia in other
eye will have a sharp focus for one eye for objects at a distance of 4 meters
and a sharp focus for the other eye for objects at a distance of 33 cm. Due to
this, the person uses less myopic eye for distance vision and the more myopic
eye for near vision. Although stereopsis (binocular depth perception) is poor,
such individuals have an advantage in later years because bifocal reading
glasses may not be required.
On
the other hand, a person having 0.25 D of hypermetropia in one eye and 3 D of
hypermetropia in the other eye has more severe difficulty. The less
hypermetropic eye is used for distance vision requiring 0.25 D of accommodation
only. However, more hypermetropic eye requires 3 D of accommodation for
distance and 5.50 D of accommodation for a reading distance of 40 cm.
Therefore, less hypermetropic eye never has a sharply focused image. It may
lead to anisometropic amblyopia (non correctable visual acuity without an
obvious cause) in early life.
References:
Grosvenor Theodore.
Primary Care Optometry Fifth Edition. Butterworth Heinemann Elsevier 2007. P
20.
Douthwaite WA. Contact
Lens Optics and Lens Design. Elsevier Butterworth Heinemann 2006. P 22- 23.
Daw Nigel W. Visual
Development Third Edition. Springer 2014. P 100.
http://onlinelibrary.wiley.com/doi/10.1111/cxo.12171/pdf
https://www.ncbi.nlm.nih.gov/pubmed/8976694
Bagshaw
J. Vertical deviations of anisometropia. Transactions of first international
orthoptic congress. Kimpton: London 1968: 277- 286.
Abrahamsson
M, Sj?strand J. Natural history of infantile anisometropia. Br J Ophthalmol
1996 Oct; 80 (10): 860-
863.
Weakley
Jr D R. The association between nonstrabismic anisometropia, amblyopia, and
subnormal binocularity. Ophthalmology 2001; 108: 163- 171.
·
Accommodative
asthenopia.
·
Alternating
vision.
·
Blurring
of image in one eye.
·
Abnormal
binocular interaction produced by dissimilar images on retina.
·
Diplopia
(double vision).
·
Amblyopia
(inability to see image from one eye).
·
Strabismus
(squint).
·
Congenital and developmental anisometropia: This is produced
due to differential growth of each eyeball. It is hereditary in origin.
·
Acquired anisometropia: This is produced by
- Post cataract
surgery uniocular aphakia.
-
Incorrect power of intraocular lens implant in patients of pseudophakia .
-
Eye injury.
-
Inadvertent surgical treatment of refractive error.
-
Keratoplasty in one eye.