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Emmetropia

April 07, 2024

Emmetropia is the state of vision in which a faraway object at infinity is in sharp focus with the ciliary muscle[1] in a relaxed state. That condition of the normal eye is achieved when the refractive power of the cornea and eye lens and the axial length of the eye balance out, which focuses rays exactly on the retina, resulting in perfectly sharp distance vision. A human eye in a state of emmetropia requires no corrective lenses for distance; the vision scores well on a visual acuity test (such as an eye chart test).[2]

While emmetropia implies an absence of myopia, hyperopia, and other optical aberrations such as astigmatism, a less strict definition requires the spherical equivalent to be between -0.5 and +0.5 D and low enough aberrations such that 20/20 vision is achieved without correction.

For example, on a Snellen chart test, emmetropic eyes score at least "6/6"(m) or "20/20"(ft) vision, meaning that at a distance of 20 ft (the first number) they see as well as a "normal" eye at a distance of 20 ft (the second number). Eyes that have enough myopia (near-sighted), hyperopia (far-sighted, excluding latent and facultative hyperopia), or optical aberrations would score worse, e.g. 20/40 (visual acuity of 0.5). Typical emmetropic vision might be 20/15 to 20/10 (visual acuity of 1.3 to 2).[3]

Emmetropes with presbyopia might use lenses for near vision.

Overview edit

Emmetropia is a state in which the eye is relaxed and focused on an object more than 6 meters or 20 feet away. The light rays coming from that object are essentially parallel, and the rays are focused on the retina without effort. If the gaze shifts to something closer, light rays from the source are too divergent to be focused without effort. In other words, the eye is automatically focused on things in the distance unless a conscious effort is made to focus elsewhere. For a wild animal or human prehistorical ancestors, that arrangement would be adaptive because it allows for alertness to predators or prey at a distance.

Accommodation of the lens does not occur in emmetropia, and the lens is about 3.6 mm thick at the center; in accommodation, it thickens to about 4.5 mm. A relatively thin lens and relatively dilated pupil are also associated. The lens usually stiffens with age, causing less ability to focus when the eyes are not in a state of emmetropia.[4]

Corrective eye surgery such as LASIK and PRK aims to correct anemmetropic vision. This is accomplished by ensuring the curvature of the cornea, the shape of the lens and their distances from each other and the retina are in harmony. By shaping the cornea, emmetropic vision can be achieved without corrective lenses. The correction for only emmetropic vision is often the reason that patients are advised to keep wearing glasses to read as they age because of presbyopia.[5]

Emmetropization edit

 
Eyeball lengths: emmetropic, near-sighted (myopic) and far-sighted (hyperopic)

The development of an eye towards emmetropia is known as emmetropization. This process is guided by visual input, and the mechanisms that coordinate this process are not fully understood.[6] It is assumed that emmetropization occurs via an active mechanism by which defocus drives growth of the eye[7] and that genetic factors and emmetropization both influence the growth of the eye's axis.[8] Newborns are typically hypermetropic and then undergo a myopic shift to become emmetropic.[9]

There has been some research on causal factors involved in the development of myopia and of hyperopia. In particular, prolonged near work is correlated with the development of myopia.[9] Furthermore, outdoor activity has been found to have a protective effect on myopia development in children.[9] It has long been assumed that wearing corrective spectacles might possibly perturb the process of emmetropization in young children, with this assumption being supported in particular also by animal studies. However, undercorrection of myopia in humans has been shown to increase the rate of myopic progression.[10] However, it is not yet fully understood for which patient groups, if any, the wearing of corrective spectacles in childhood actually impedes emmetropization.[11]

In hyperopic children, yet more factors are to be considered: Hyperopia is known to be a significant risk factor for esotropia, therefore undercorrection may have the side effect of increasing this risk.[12] There is widespread consensus that undercorrection is counterindicated for children with accommodative esotropia.[10] It is still unclear for which hyperopic, non-strabismic children corrective spectacles may translate to a lower strabismus risk.[7][11] There are indications that emmetropization is relevant for hyperopic children who have at most about 3.0 diopters, whereas children with stronger hyperopia seem to not change their refraction independently of whether the refractive error is corrected or not.[13]

A Cochrane Review of three trials seeking to determine whether spectacle correction reduced the occurrence of strabismus in children[14][needs update] included one study which suggested that spectacle correction perturbed emmetropization in children,[15] while a second study reported no differences.[16]

Etymology edit

"Emmetropia" is derived from Greek ἔμμετρος emmetros "well-proportioned" (from ἐν en "in" and μέτρον metron "measure") and ὤψ ōps "sight" (GEN ὠπός ōpos). Translated literally, the term indicates the condition of an eye's having in itself (i.e., without recourse to corrective lenses or other instruments) the capability to obtain an accurate measurement of an object's physical appearance.

References edit

  1. ^ Hall, John E.; Michael E. Hall (2021). Guyton and Hall textbook of medical physiology (14th ed.). Philadelphia. ISBN 978-0-323-59712-8. OCLC 1129099861.{{cite book}}: CS1 maint: location missing publisher (link)
  2. ^ "Eye test chart". Banton Frameworks. 20 December 2022. Retrieved February 11, 2023.
  3. ^ "We have found also that the best eyes have a visual acuity which approaches 2, and we can be almost certain that if, with a good illumination, the acuity is only equal to 1, the eye presents defects sufficiently pronounced to be easily established." Physiologic Optics: Dioptrics of the Eye, Functions of the Retina, Ocular Movements and Binocular Vision
  4. ^ Saladin, Kenneth S. "16." Anatomy & Physiology: the Unity of Form and Function. New York, NY: McGraw-Hill, 2012. Print.
  5. ^ "Photorefractive Keratectomy (PRK) Eye Surgery"
  6. ^ Mutti, DO (2005). "Axial Growth and Changes in Lenticular and Corneal Power during Emmetropization in Infants". Investigative Ophthalmology & Visual Science. 46 (9): 3074–3080. doi:10.1167/iovs.04-1040. ISSN 0146-0404. PMID 16123404.
  7. ^ a b Babinsky E, Candy TR (2013). "Why do only some hyperopes become strabismic?". Investigative Ophthalmology & Visual Science (Review). 54 (7): 4941–55. doi:10.1167/iovs.12-10670. PMC 3723374. PMID 23883788.
  8. ^ Siegwart JT, Norton TT (March 2011). "Perspective: how might emmetropization and genetic factors produce myopia in normal eyes?". Optometry and Vision Science. 88 (3): E365–72. doi:10.1097/OPX.0b013e31820b053d. PMC 3075852. PMID 21258261.
  9. ^ a b c Medina, A (2022). "The cause of myopia development and progression: Theory, evidence, and treatment". Surv Ophthalmol. 67 (2): 488–509. doi:10.1016/j.survophthal.2021.06.005. PMID 34181975. S2CID 235672990.
  10. ^ a b Creig Simmons Hoyt; David Taylor (2012). Pediatric Ophthalmology and Strabismus, Expert Consult - Online and Print,4: Pediatric Ophthalmology and Strabismus. Elsevier Health Sciences. pp. 33–34. ISBN 978-0-7020-4691-9.
  11. ^ a b Jones-Jordan, Lisa; Wang, Xue; Scherer, Roberta W.; Mutti, Donald O. (2 April 2020). "Spectacle correction versus no spectacles for prevention of strabismus in hyperopic children". The Cochrane Database of Systematic Reviews. 2020 (4): CD007738. doi:10.1002/14651858.CD007738.pub3. ISSN 1469-493X. PMC 7117860. PMID 32240551.
  12. ^ "Children with a greater degree of hyperopia are at a greater erisk to become esotropic; thus, a dilemma exists in presribig convex lenses to prevent the deviation as opposed to a possible interference with the emmetropization process." Quoted from: Robert H. Duckman (2006). Visual Development, Diagnosis, and Treatment of the Pediatric Patient. Lippincott Williams & Wilkins. p. 71. ISBN 978-0-7817-5288-6.
  13. ^ Birgit Lorenz; Anthony Moore (31 January 2006). Pediatric Ophthalmology, Neuro-Ophthalmology, Genetics. Springer Science & Business Media. p. 15. ISBN 978-3-540-31220-8.
  14. ^ Jones-Jordan L, Wang X, Scherer RW, Mutti DO (2014). "Topical Spectacle correction versus no spectacles for prevention of strabismus in hyperopic children". Cochrane Database Syst Rev. 8 (8): CD007738. doi:10.1002/14651858.CD007738.pub2. PMC 4259577. PMID 25133974.
  15. ^ Ingram RM, Arnold PE, Dally S, Lucas J (1991). "Emmetropisation, squint, and reduced visual acuity after treatment". Br J Ophthalmol. 75 (7): 414–416. doi:10.1136/bjo.75.7.414. PMC 1042408. PMID 1854694.
  16. ^ Atkinson J, Anker S, Bobier W, Braddick O, Durden K, Nardini M, et al. (2000). "Normal emmetropization in infants with spectacle correction for hyperopia". Invest Ophthalmol Vis Sci. 41 (12): 3726–3731. PMID 11053269.

Further reading edit

April 07, 2024
emmetropia, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, january, 2009, . This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Emmetropia news newspapers books scholar JSTOR January 2009 Learn how and when to remove this template message Emmetropia is the state of vision in which a faraway object at infinity is in sharp focus with the ciliary muscle 1 in a relaxed state That condition of the normal eye is achieved when the refractive power of the cornea and eye lens and the axial length of the eye balance out which focuses rays exactly on the retina resulting in perfectly sharp distance vision A human eye in a state of emmetropia requires no corrective lenses for distance the vision scores well on a visual acuity test such as an eye chart test 2 EmmetropiaSpecialtyOphthalmologyWhile emmetropia implies an absence of myopia hyperopia and other optical aberrations such as astigmatism a less strict definition requires the spherical equivalent to be between 0 5 and 0 5 D and low enough aberrations such that 20 20 vision is achieved without correction For example on a Snellen chart test emmetropic eyes score at least 6 6 m or 20 20 ft vision meaning that at a distance of 20 ft the first number they see as well as a normal eye at a distance of 20 ft the second number Eyes that have enough myopia near sighted hyperopia far sighted excluding latent and facultative hyperopia or optical aberrations would score worse e g 20 40 visual acuity of 0 5 Typical emmetropic vision might be 20 15 to 20 10 visual acuity of 1 3 to 2 3 Emmetropes with presbyopia might use lenses for near vision Contents 1 Overview 2 Emmetropization 3 Etymology 4 References 5 Further readingOverview editEmmetropia is a state in which the eye is relaxed and focused on an object more than 6 meters or 20 feet away The light rays coming from that object are essentially parallel and the rays are focused on the retina without effort If the gaze shifts to something closer light rays from the source are too divergent to be focused without effort In other words the eye is automatically focused on things in the distance unless a conscious effort is made to focus elsewhere For a wild animal or human prehistorical ancestors that arrangement would be adaptive because it allows for alertness to predators or prey at a distance Accommodation of the lens does not occur in emmetropia and the lens is about 3 6 mm thick at the center in accommodation it thickens to about 4 5 mm A relatively thin lens and relatively dilated pupil are also associated The lens usually stiffens with age causing less ability to focus when the eyes are not in a state of emmetropia 4 Corrective eye surgery such as LASIK and PRK aims to correct anemmetropic vision This is accomplished by ensuring the curvature of the cornea the shape of the lens and their distances from each other and the retina are in harmony By shaping the cornea emmetropic vision can be achieved without corrective lenses The correction for only emmetropic vision is often the reason that patients are advised to keep wearing glasses to read as they age because of presbyopia 5 Emmetropization edit nbsp Eyeball lengths emmetropic near sighted myopic and far sighted hyperopic The development of an eye towards emmetropia is known as emmetropization This process is guided by visual input and the mechanisms that coordinate this process are not fully understood 6 It is assumed that emmetropization occurs via an active mechanism by which defocus drives growth of the eye 7 and that genetic factors and emmetropization both influence the growth of the eye s axis 8 Newborns are typically hypermetropic and then undergo a myopic shift to become emmetropic 9 There has been some research on causal factors involved in the development of myopia and of hyperopia In particular prolonged near work is correlated with the development of myopia 9 Furthermore outdoor activity has been found to have a protective effect on myopia development in children 9 It has long been assumed that wearing corrective spectacles might possibly perturb the process of emmetropization in young children with this assumption being supported in particular also by animal studies However undercorrection of myopia in humans has been shown to increase the rate of myopic progression 10 However it is not yet fully understood for which patient groups if any the wearing of corrective spectacles in childhood actually impedes emmetropization 11 In hyperopic children yet more factors are to be considered Hyperopia is known to be a significant risk factor for esotropia therefore undercorrection may have the side effect of increasing this risk 12 There is widespread consensus that undercorrection is counterindicated for children with accommodative esotropia 10 It is still unclear for which hyperopic non strabismic children corrective spectacles may translate to a lower strabismus risk 7 11 There are indications that emmetropization is relevant for hyperopic children who have at most about 3 0 diopters whereas children with stronger hyperopia seem to not change their refraction independently of whether the refractive error is corrected or not 13 A Cochrane Review of three trials seeking to determine whether spectacle correction reduced the occurrence of strabismus in children 14 needs update included one study which suggested that spectacle correction perturbed emmetropization in children 15 while a second study reported no differences 16 Etymology edit Emmetropia is derived from Greek ἔmmetros emmetros well proportioned from ἐn en in and metron metron measure and ὤps ōps sight GEN ὠpos ōpos Translated literally the term indicates the condition of an eye s having in itself i e without recourse to corrective lenses or other instruments the capability to obtain an accurate measurement of an object s physical appearance References edit Hall John E Michael E Hall 2021 Guyton and Hall textbook of medical physiology 14th ed Philadelphia ISBN 978 0 323 59712 8 OCLC 1129099861 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Eye test chart Banton Frameworks 20 December 2022 Retrieved February 11 2023 We have found also that the best eyes have a visual acuity which approaches 2 and we can be almost certain that if with a good illumination the acuity is only equal to 1 the eye presents defects sufficiently pronounced to be easily established Physiologic Optics Dioptrics of the Eye Functions of the Retina Ocular Movements and Binocular Vision Saladin Kenneth S 16 Anatomy amp Physiology the Unity of Form and Function New York NY McGraw Hill 2012 Print Photorefractive Keratectomy PRK Eye Surgery Mutti DO 2005 Axial Growth and Changes in Lenticular and Corneal Power during Emmetropization in Infants Investigative Ophthalmology amp Visual Science 46 9 3074 3080 doi 10 1167 iovs 04 1040 ISSN 0146 0404 PMID 16123404 a b Babinsky E Candy TR 2013 Why do only some hyperopes become strabismic Investigative Ophthalmology amp Visual Science Review 54 7 4941 55 doi 10 1167 iovs 12 10670 PMC 3723374 PMID 23883788 Siegwart JT Norton TT March 2011 Perspective how might emmetropization and genetic factors produce myopia in normal eyes Optometry and Vision Science 88 3 E365 72 doi 10 1097 OPX 0b013e31820b053d PMC 3075852 PMID 21258261 a b c Medina A 2022 The cause of myopia development and progression Theory evidence and treatment Surv Ophthalmol 67 2 488 509 doi 10 1016 j survophthal 2021 06 005 PMID 34181975 S2CID 235672990 a b Creig Simmons Hoyt David Taylor 2012 Pediatric Ophthalmology and Strabismus Expert Consult Online and Print 4 Pediatric Ophthalmology and Strabismus Elsevier Health Sciences pp 33 34 ISBN 978 0 7020 4691 9 a b Jones Jordan Lisa Wang Xue Scherer Roberta W Mutti Donald O 2 April 2020 Spectacle correction versus no spectacles for prevention of strabismus in hyperopic children The Cochrane Database of Systematic Reviews 2020 4 CD007738 doi 10 1002 14651858 CD007738 pub3 ISSN 1469 493X PMC 7117860 PMID 32240551 Children with a greater degree of hyperopia are at a greater erisk to become esotropic thus a dilemma exists in presribig convex lenses to prevent the deviation as opposed to a possible interference with the emmetropization process Quoted from Robert H Duckman 2006 Visual Development Diagnosis and Treatment of the Pediatric Patient Lippincott Williams amp Wilkins p 71 ISBN 978 0 7817 5288 6 Birgit Lorenz Anthony Moore 31 January 2006 Pediatric Ophthalmology Neuro Ophthalmology Genetics Springer Science amp Business Media p 15 ISBN 978 3 540 31220 8 Jones Jordan L Wang X Scherer RW Mutti DO 2014 Topical Spectacle correction versus no spectacles for prevention of strabismus in hyperopic children Cochrane Database Syst Rev 8 8 CD007738 doi 10 1002 14651858 CD007738 pub2 PMC 4259577 PMID 25133974 Ingram RM Arnold PE Dally S Lucas J 1991 Emmetropisation squint and reduced visual acuity after treatment Br J Ophthalmol 75 7 414 416 doi 10 1136 bjo 75 7 414 PMC 1042408 PMID 1854694 Atkinson J Anker S Bobier W Braddick O Durden K Nardini M et al 2000 Normal emmetropization in infants with spectacle correction for hyperopia Invest Ophthalmol Vis Sci 41 12 3726 3731 PMID 11053269 Further reading editBernard Gilmartin 1998 Myopia and nearwork permanent dead link Pg 33 34 Elsevier Health Sciences ISBN 0 7506 3784 6 Retrieved from https en wikipedia org w index php title Emmetropia amp oldid 1212461980, wikipedia, wiki, book, books, library,

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