Anatomic Peculiarities Associated with Axial Elongation of the Myopic Eye

Purpose: To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Methods: Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clin...

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Vydáno v:Journal of clinical medicine Ročník 12; číslo 4; s. 1317
Hlavní autoři: Jonas, Jost B., Bikbov, Mukharram M., Wang, Ya-Xing, Jonas, Rahul A., Panda-Jonas, Songhomitra
Médium: Journal Article
Jazyk:angličtina
Vydáno: Switzerland MDPI AG 07.02.2023
MDPI
Témata:
Abnormalities
Biomechanics
Clinical medicine
Defects
Development and progression
Diagnosis
Eye
Longitudinal studies
Morphology
Myopia
Optic nerve
Optics
Photoreceptors
Population-based studies
Review
Risk factors
Visual impairment
Germany
choroid
retina
Bruch´s membrane
myopia
axial elongation
retinal pigment epithelium
macula
ISSN:2077-0383, 2077-0383
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Abstract Purpose: To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Methods: Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals. Results: Myopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch’s membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery. Conclusions: These features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.
AbstractList Purpose: To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Methods: Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals. Results: Myopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch’s membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery. Conclusions: These features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.
To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals. Myopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch's membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery. These features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.
To describe anatomical peculiarities associated with axial elongation in the human myopic eye.PURPOSETo describe anatomical peculiarities associated with axial elongation in the human myopic eye.Reviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals.METHODSReviewing the results of previous histomorphometrical investigations of enucleated human globes, as well as reviewing findings obtained in population-based studies and hospital-based clinical investigations of myopic patients and non-myopic individuals.Myopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch's membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery.RESULTSMyopic axial elongation is associated with a change from a mostly spherical eye shape to a prolate ellipsoid form. It is combined with choroidal and scleral thinning, most pronounced at the posterior pole and less pronounced in the fundus midperiphery. In the fundus midperiphery, the retina and density of the retinal pigment epithelium (RPE) and photoreceptors decrease with a longer axial length, while in the macular region, retinal thickness, RPE cell density, and choriocapillaris thickness are not related to axial length. With axial elongation, a parapapillary gamma zone develops, leading to an enlargement of the optic disc-fovea distance and a decrease in angle kappa. Axial elongation is also correlated with an increase in the surface and volume of Bruch's membrane (BM), while BM thickness remains unchanged. Axial elongation causes moderately myopic eyes to show a shift of BM opening to the foveal direction so that the horizontal disc diameter becomes shorter (with a consequent vertical ovalization of the optic disc shape), a temporal gamma zone develops, and the optic nerve exit takes an oblique course. Features of high myopia are an enlargement of the RPE opening (myopic parapapillary beta zone) and BM opening (secondary macrodisc), elongation and thinning of the lamina cribrosa, peripapillary scleral flange (parapapillary delta zone) and peripapillary choroidal border tissue, secondary BM defects in the macular region, myopic maculoschisis, macular neovascularization, and cobblestones in the fundus periphery.These features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.CONCLUSIONSThese features combined may be explained by a growth in BM in the fundus midperiphery leading to axial elongation.
Audience Academic
Author Jonas, Rahul A.
Bikbov, Mukharram M.
Panda-Jonas, Songhomitra
Wang, Ya-Xing
Jonas, Jost B.
AuthorAffiliation 5 Beijing Institute of Ophthalmology, Beijing Tongren Hospital, Capital Medical University, Beijing Ophthalmology and Visual Sciences Key Laboratory, Beijing 100041, China
6 Department of Ophthalmology, University of Cologne, 50923 Cologne, Germany
2 Institute for Clinical and Scientific Ophthalmology and Acupuncture Jonas & Panda, 69120 Heidelberg, Germany
1 Department of Ophthalmology, Medical Faculty Mannheim of the Ruprecht-Karis-University, 68167 Mannheim, Germany
3 Privatpraxis Prof. Jonas und Dr. Panda-Jonas, 69115 Heidelberg, Germany
4 Ufa Eye Research Institute, Ufa 450008, Russia
AuthorAffiliation_xml – name: 6 Department of Ophthalmology, University of Cologne, 50923 Cologne, Germany
– name: 5 Beijing Institute of Ophthalmology, Beijing Tongren Hospital, Capital Medical University, Beijing Ophthalmology and Visual Sciences Key Laboratory, Beijing 100041, China
– name: 3 Privatpraxis Prof. Jonas und Dr. Panda-Jonas, 69115 Heidelberg, Germany
– name: 4 Ufa Eye Research Institute, Ufa 450008, Russia
– name: 2 Institute for Clinical and Scientific Ophthalmology and Acupuncture Jonas & Panda, 69120 Heidelberg, Germany
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  givenname: Songhomitra
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/36835853$$D View this record in MEDLINE/PubMed
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Keywords choroid
retina
Bruch´s membrane
myopia
axial elongation
retinal pigment epithelium
macula
Language English
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PublicationDate 20230207
PublicationDateYYYYMMDD 2023-02-07
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  year: 2023
  text: 20230207
  day: 7
PublicationDecade 2020
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PublicationTitle Journal of clinical medicine
PublicationTitleAlternate J Clin Med
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Snippet Purpose: To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Methods: Reviewing the results of previous...
To describe anatomical peculiarities associated with axial elongation in the human myopic eye. Reviewing the results of previous histomorphometrical...
To describe anatomical peculiarities associated with axial elongation in the human myopic eye.PURPOSETo describe anatomical peculiarities associated with axial...
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StartPage 1317
SubjectTerms Abnormalities
Biomechanics
Clinical medicine
Defects
Development and progression
Diagnosis
Eye
Longitudinal studies
Morphology
Myopia
Optic nerve
Optics
Photoreceptors
Population-based studies
Review
Risk factors
Visual impairment
Title Anatomic Peculiarities Associated with Axial Elongation of the Myopic Eye
URI https://www.ncbi.nlm.nih.gov/pubmed/36835853
https://www.proquest.com/docview/2779531797
https://www.proquest.com/docview/2780062983
https://pubmed.ncbi.nlm.nih.gov/PMC9966891
Volume 12
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