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Anisometropia

Anisometropia
Pronunciation
SpecialtyOphthalmology, optometry Edit this on Wikidata
SymptomsEyes' refractive power differs significantly
ComplicationsAmblyopia
Antimetropia
SpecialtyOphthalmology, optometry Edit this on Wikidata
SymptomsOne eye has myopia and other has hyperopia
ComplicationsAmblyopia

Anisometropia is a condition in which a person's eyes have substantially differing refractive power.[1] Generally, a difference in power of one diopter (1D) is the threshold for diagnosis of the condition.[2][3] Patients may have up to 3D of anisometropia before the condition becomes clinically significant due to headache, eye strain, double vision or photophobia.[4]

In certain types of anisometropia, the visual cortex of the brain cannot process images from both eyes simultaneously (binocular summation), but will instead suppress the central vision of one of the eyes. If this occurs too often during the first 10 years of life, while the visual cortex is developing, it can result in amblyopia, a condition where, even when correcting the refractive error properly, the person's vision in the affected eye may still not be fully correctable to 20/20.

The name of the condition comes from its four Greek components: an- "not", iso- "same", metr- "measure", ops "eye".

Antimetropia is a rare sub-type of anisometropia in which one eye is myopic (nearsighted) and the other eye is hyperopic (farsighted). This condition occurs in about 0.1% of the population.[5]

Causes

Anisometropia is caused by common refractive errors, such as astigmatism, far-sightedness, and myopia, in one eye.[6]

Anisometropia is likely the result of both genetic and environmental influences.[7]

Some studies suggest, in older adults, developing asymmetric cataracts may cause worsen anisometropia. However, anisometropia is associated with age regardless of cataract development: a rapid decrease in anisometropia during the first years of life, an increase during the transition to adulthood, relatively unchanging levels during adulthood but significant increases in older age.[7]

Diagnosis

Anisometropia causes some people to have mild vision problems, or occasionally more serious symptoms like alternating vision or frequent squinting. However, since most people do not show any clear symptoms, the condition usually is found during a routine eye exam.[8]

For early detection in preverbal children, photoscreening can be used. In this brief vision test specialized cameras detect each eye's light reflexes, which the equipment's software or a test administrator then interprets. If photoscreening indicates the presence of risk factors, an ophthalmologist can then diagnose the condition after a complete eye exam, including dilating the pupils and measuring the focusing power of each eye.[6]

Treatment

Spectacle correction

For those with large degrees of anisometropia, the wearing of standard spectacles may cause the person to experience a difference in image magnification between the two eyes (aniseikonia) which could also prevent the development of good binocular vision. This can make it very difficult to wear glasses without symptoms such as headaches and eyestrain. However, the earlier the condition is treated, the easier it is to adjust to glasses.

It is possible for spectacle lenses to be made which can adjust the image sizes presented to the eye to be approximately equal. These are called iseikonic lenses. In practice though, this is rarely ever done.

The formula for iseikonic lenses (without cylinder) is:

where:
t = center thickness (in metres);
n = refractive index;
P = front base curve (in 1/metres);
h = vertex distance (in metres);
F = back vertex power (in 1/metres), (essentially, the prescription for the lens, quoted in diopters).

If the difference between the eyes is up to 3 diopters, iseikonic lenses can compensate. At a difference of 3 diopters the lenses would however be very visibly different—one lens would need to be at least 3 mm thicker and have a base curve increased by 7.5 spheres.

Example

Consider a pair of spectacles to correct for myopia with a prescription of −1.00 m−1 in one eye and −4.00 m−1 in the other. Suppose that for both eyes the other parameters are identical, namely t = 1 mm = 0.001 m, n = 1.6, P = 5 m−1, and h = 15 mm = 0.015 m.
Then for the first eye ,
while for the second eye .

Thus, in the first eye the size of the image formed on the retina will be 1.17% smaller than without spectacles (although it will be sharp, rather than blurry), whilst in the second eye the image formed on the retina will be 5.36% smaller.

As alluded to above, one method of producing more iseikonic lenses would be to adjust the thickness and base curve of the second lens. For instance, theoretically it could be set to t = 5 mm = 0.005 m and P = 14.5 m−1, with all other parameters unchanged. Then for the second eye the magnification would become ,
which is much closer to that of the first eye.

In this example the first eye, with a −1.00 diopter prescription, is the stronger eye, needing only slight correction to sharpen the image formed, and hence a thin spectacle lens. The second eye, with a −4.00 diopter prescription, is the weaker eye, needing moderate correction to sharpen the image formed, and hence a moderately thick spectacle lens—if the aniseikonia is ignored. In order to avoid the aniseikonia (so that both magnifications will be practically the same, while retaining image sharpness in both eyes), the spectacle lens used for the second eye will have to be made even thicker.

Contact lenses

The usual recommendation for those needing iseikonic correction is to wear contact lenses. The effect of vertex distance is removed and the effect of center thickness is also almost removed, meaning there is minimal and likely unnoticeable image size difference. This is a good solution for those who can tolerate contact lenses.

Refractive surgery

Refractive surgery causes only minimal size differences, similar to contact lenses. In a study performed on 53 children who had amblyopia due to anisometropia, surgical correction of the anisometropia followed by strabismus surgery if required led to improved visual acuity and even to stereopsis in many of the children[9] (see: Refractive surgery).

Epidemiology

A determination of the prevalence of anisometropia has several difficulties. First of all, the measurement of refractive error may vary from one measurement to the next. Secondly, different criteria have been employed to define anisometropia, and the boundary between anisometropia and isometropia depend on their definition.[10]

Several studies have found that anisometropia occurs more frequently and tends to be more severe for persons with high ametropia, and that this is particularly true for myopes. Anisometropia follows a U-shape distribution according to age: it is frequent in infants aged only a few weeks, is more rare in young children, comparatively more frequent in teenagers and young adults, and more prevalent after presbyopia sets in, progressively increasing into old age.[10]

One study estimated that 6% of those between the ages of 6 and 18 have anisometropia.[11]

Notwithstanding research performed on the biomechanical, structural and optical characteristics of anisometropic eyes, the underlying reasons for anisometropia are still poorly understood.[12]

Anisometropic persons who have strabismus are mostly far-sighted, and almost all of these have (or have had) esotropia.[13] However, there are indications that anisometropia influences the long-term outcome of a surgical correction of an inward squint, and vice versa. More specifically, for patients with esotropia who undergo strabismus surgery, anisometropia may be one of the risk factors for developing consecutive exotropia[14] and poor binocular function may be a risk factor for anisometropia to develop or increase.[15]

References

  1. ^ "Anisometropia - American Association for Pediatric Ophthalmology and Strabismus". aapos.org. Retrieved 10 February 2020.
  2. ^ Hammond, Christopher J (2013-01-01), Hoyt, Creig S; Taylor, David (eds.), "Chapter 5 - Emmetropization, refraction and refractive errors: control of postnatal eye growth, current and developing treatments", Pediatric Ophthalmology and Strabismus (Fourth Edition), London: W.B. Saunders, pp. 31–35, doi:10.1016/b978-0-7020-4691-9.00005-4, ISBN 978-0-7020-4691-9, retrieved 2022-05-02
  3. ^ Nunes, Amélia F; Batista, Maria; Monteiro, Pedro (2022-01-10). "Prevalence of anisometropia in children and adolescents". F1000Research. 10: 1101. doi:10.12688/f1000research.73657.3 (inactive 1 November 2024). ISSN 2046-1402. PMC 8729023. PMID 35035896.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  4. ^ Krarup, Therese Grønhøj; Nisted, Ivan; Christensen, Ulrik; Kiilgaard, Jens Folke; la Cour, Morten (June 2020). "The tolerance of anisometropia". Acta Ophthalmologica. 98 (4): 418–426. doi:10.1111/aos.14310. ISSN 1755-375X. PMID 31773911. S2CID 208321443.
  5. ^ Vincent, Stephen J.; Read, Scott A. (1 July 2014). "Progressive adult antimetropia". Clinical and Experimental Optometry. 97 (4): 375–378. doi:10.1111/cxo.12129. PMID 24438511.
  6. ^ a b "Anisometropia - American Association for Pediatric Ophthalmology and Strabismus". www.aapos.org. Retrieved 2022-02-08.
  7. ^ a b Vincent, Stephen J; Collins, Michael J; Read, Scott A; Carney, Leo G (2014-07-01). "Myopic anisometropia: ocular characteristics and aetiological considerations". Clinical and Experimental Optometry. 97 (4): 291–307. doi:10.1111/cxo.12171. ISSN 0816-4622. PMID 24939167. S2CID 205048169.
  8. ^ "Guide to Anisometropia (& Treatment Options)". NVISION Eye Centers. Retrieved 2022-02-08.
  9. ^ William F. Astle; Jamalia Rahmat; April D. Ingram; Peter T. Huang (December 2007). "Laser-assisted subepithelial keratectomy for anisometropic amblyopia in children: Outcomes at 1 year". Journal of Cataract & Refractive Surgery. 33 (12): 2028–2034. doi:10.1016/j.jcrs.2007.07.024. PMID 18053899. S2CID 1886316.
  10. ^ a b Barrett BT, Bradley A, Candy TR (September 2013). "The relationship between anisometropia and amblyopia". Progress in Retinal and Eye Research. 36: 120–58. doi:10.1016/j.preteyeres.2013.05.001. PMC 3773531. PMID 23773832.
  11. ^ Czepita D, Goslawski W, Mojsa A (2005). "Occurrence of anisometropia among students ranging from 6 to 18 years of age". Klin Oczna. 107 (4–6): 297–9. PMID 16118943.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  12. ^ Vincent SJ, Collins MJ, Read SA, Carney LG (2014). "Myopic anisometropia: ocular characteristics and aetiological considerations". Clinical & Experimental Optometry (Review). 97 (4): 291–307. doi:10.1111/cxo.12171. PMID 24939167. S2CID 205048169.
  13. ^ "When strabismus is present in an anisometropic individual, it is almost always of the convergent type and is generally found in anisohyperopes but not anisomyopes." Barrett BT, Bradley A, Candy TR (September 2013). "The relationship between anisometropia and amblyopia". Progress in Retinal and Eye Research. 36: 120–58. doi:10.1016/j.preteyeres.2013.05.001. PMC 3773531. PMID 23773832.
  14. ^ Yurdakul NS, Ugurlu S (2013). "Analysis of risk factors for consecutive exotropia and review of the literature". Journal of Pediatric Ophthalmology and Strabismus. 50 (5): 268–73. doi:10.3928/01913913-20130430-01. PMID 23641958.
  15. ^ Fujikado T, Morimoto T, Shimojyo H (November 2010). "Development of anisometropia in patients after surgery for esotropia". Japanese Journal of Ophthalmology. 54 (6): 589–93. doi:10.1007/s10384-010-0868-z. PMID 21191721. S2CID 9298405.
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