The primate fovea: Structure, function and development

A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea externa). Although the shape of the vertebrate fovea varies considerably among the species, there are two basic types. The retina of many pre...

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Vydané v:Progress in retinal and eye research Ročník 66; s. 49 - 84
Hlavní autori: Bringmann, Andreas, Syrbe, Steffen, Görner, Katja, Kacza, Johannes, Francke, Mike, Wiedemann, Peter, Reichenbach, Andreas
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: England Elsevier Ltd 01.09.2018
Predmet:
Animals
Astrocyte
Astrocytes - cytology
Astrocytes - physiology
Ependymoglial Cells - cytology
Ependymoglial Cells - physiology
Fovea
Fovea Centralis - anatomy & histology
Fovea Centralis - embryology
Fovea Centralis - physiology
Glia
Glial Fibrillary Acidic Protein - metabolism
Humans
Macaca
Müller cell
Optics
Primate
Retinal Diseases - pathology
OCT
Müller cell
FGF
IPL
INL
RPE
VEGF
Fovea
Optics
ACL
BCL
OPL
Astrocyte
ILM
ONL
GFAP
HFL
GCL
OLM
NFL
PDGF
Primate
RFL
Glia
ISSN:1350-9462, 1873-1635, 1873-1635
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Abstract A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea externa). Although the shape of the vertebrate fovea varies considerably among the species, there are two basic types. The retina of many predatory fish, reptilians, and birds possess one (or two) convexiclivate fovea(s), while the retina of higher primates contains a concaviclivate fovea. By refraction of the incoming light, the convexiclivate fovea may function as image enlarger, focus indicator, and movement detector. By centrifugal displacement of the inner retinal layers, which increases the transparency of the central foveal tissue (the foveola), the primate fovea interna improves the quality of the image received by the central photoreceptors. In this review, we summarize ‒ with the focus on Müller cells of the human and macaque fovea ‒ data regarding the structure of the primate fovea, discuss various aspects of the optical function of the fovea, and propose a model of foveal development. The “Müller cell cone” of the foveola comprises specialized Müller cells which do not support neuronal activity but may serve optical and structural functions. In addition to the “Müller cell cone”, structural stabilization of the foveal morphology may be provided by the 'z-shaped' Müller cells of the fovea walls, via exerting tractional forces onto Henle fibers. The spatial distribution of glial fibrillary acidic protein may suggest that the foveola and the Henle fiber layer are subjects to mechanical stress. During development, the foveal pit is proposed to be formed by a vertical contraction of the centralmost Müller cells. After widening of the foveal pit likely mediated by retracting astrocytes, Henle fibers are formed by horizontal contraction of Müller cell processes in the outer plexiform layer and the centripetal displacement of photoreceptors. A better understanding of the molecular, cellular, and mechanical factors involved in the developmental morphogenesis and the structural stabilization of the fovea may help to explain the (patho-) genesis of foveal hypoplasia and macular holes.
AbstractList A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea externa). Although the shape of the vertebrate fovea varies considerably among the species, there are two basic types. The retina of many predatory fish, reptilians, and birds possess one (or two) convexiclivate fovea(s), while the retina of higher primates contains a concaviclivate fovea. By refraction of the incoming light, the convexiclivate fovea may function as image enlarger, focus indicator, and movement detector. By centrifugal displacement of the inner retinal layers, which increases the transparency of the central foveal tissue (the foveola), the primate fovea interna improves the quality of the image received by the central photoreceptors. In this review, we summarize ‒ with the focus on Müller cells of the human and macaque fovea ‒ data regarding the structure of the primate fovea, discuss various aspects of the optical function of the fovea, and propose a model of foveal development. The "Müller cell cone" of the foveola comprises specialized Müller cells which do not support neuronal activity but may serve optical and structural functions. In addition to the "Müller cell cone", structural stabilization of the foveal morphology may be provided by the 'z-shaped' Müller cells of the fovea walls, via exerting tractional forces onto Henle fibers. The spatial distribution of glial fibrillary acidic protein may suggest that the foveola and the Henle fiber layer are subjects to mechanical stress. During development, the foveal pit is proposed to be formed by a vertical contraction of the centralmost Müller cells. After widening of the foveal pit likely mediated by retracting astrocytes, Henle fibers are formed by horizontal contraction of Müller cell processes in the outer plexiform layer and the centripetal displacement of photoreceptors. A better understanding of the molecular, cellular, and mechanical factors involved in the developmental morphogenesis and the structural stabilization of the fovea may help to explain the (patho-) genesis of foveal hypoplasia and macular holes.A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea externa). Although the shape of the vertebrate fovea varies considerably among the species, there are two basic types. The retina of many predatory fish, reptilians, and birds possess one (or two) convexiclivate fovea(s), while the retina of higher primates contains a concaviclivate fovea. By refraction of the incoming light, the convexiclivate fovea may function as image enlarger, focus indicator, and movement detector. By centrifugal displacement of the inner retinal layers, which increases the transparency of the central foveal tissue (the foveola), the primate fovea interna improves the quality of the image received by the central photoreceptors. In this review, we summarize ‒ with the focus on Müller cells of the human and macaque fovea ‒ data regarding the structure of the primate fovea, discuss various aspects of the optical function of the fovea, and propose a model of foveal development. The "Müller cell cone" of the foveola comprises specialized Müller cells which do not support neuronal activity but may serve optical and structural functions. In addition to the "Müller cell cone", structural stabilization of the foveal morphology may be provided by the 'z-shaped' Müller cells of the fovea walls, via exerting tractional forces onto Henle fibers. The spatial distribution of glial fibrillary acidic protein may suggest that the foveola and the Henle fiber layer are subjects to mechanical stress. During development, the foveal pit is proposed to be formed by a vertical contraction of the centralmost Müller cells. After widening of the foveal pit likely mediated by retracting astrocytes, Henle fibers are formed by horizontal contraction of Müller cell processes in the outer plexiform layer and the centripetal displacement of photoreceptors. A better understanding of the molecular, cellular, and mechanical factors involved in the developmental morphogenesis and the structural stabilization of the fovea may help to explain the (patho-) genesis of foveal hypoplasia and macular holes.
A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea externa). Although the shape of the vertebrate fovea varies considerably among the species, there are two basic types. The retina of many predatory fish, reptilians, and birds possess one (or two) convexiclivate fovea(s), while the retina of higher primates contains a concaviclivate fovea. By refraction of the incoming light, the convexiclivate fovea may function as image enlarger, focus indicator, and movement detector. By centrifugal displacement of the inner retinal layers, which increases the transparency of the central foveal tissue (the foveola), the primate fovea interna improves the quality of the image received by the central photoreceptors. In this review, we summarize ‒ with the focus on Müller cells of the human and macaque fovea ‒ data regarding the structure of the primate fovea, discuss various aspects of the optical function of the fovea, and propose a model of foveal development. The "Müller cell cone" of the foveola comprises specialized Müller cells which do not support neuronal activity but may serve optical and structural functions. In addition to the "Müller cell cone", structural stabilization of the foveal morphology may be provided by the 'z-shaped' Müller cells of the fovea walls, via exerting tractional forces onto Henle fibers. The spatial distribution of glial fibrillary acidic protein may suggest that the foveola and the Henle fiber layer are subjects to mechanical stress. During development, the foveal pit is proposed to be formed by a vertical contraction of the centralmost Müller cells. After widening of the foveal pit likely mediated by retracting astrocytes, Henle fibers are formed by horizontal contraction of Müller cell processes in the outer plexiform layer and the centripetal displacement of photoreceptors. A better understanding of the molecular, cellular, and mechanical factors involved in the developmental morphogenesis and the structural stabilization of the fovea may help to explain the (patho-) genesis of foveal hypoplasia and macular holes.
Author Francke, Mike
Wiedemann, Peter
Görner, Katja
Kacza, Johannes
Bringmann, Andreas
Syrbe, Steffen
Reichenbach, Andreas
Author_xml – sequence: 1
  givenname: Andreas
  surname: Bringmann
  fullname: Bringmann, Andreas
  organization: Department of Ophthalmology and Eye Hospital, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
– sequence: 2
  givenname: Steffen
  surname: Syrbe
  fullname: Syrbe, Steffen
  organization: Paul Flechsig Institute of Brain Research, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
– sequence: 3
  givenname: Katja
  surname: Görner
  fullname: Görner, Katja
  organization: Paul Flechsig Institute of Brain Research, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
– sequence: 4
  givenname: Johannes
  surname: Kacza
  fullname: Kacza, Johannes
  organization: Saxon Incubator for Clinical Translation (SIKT), Leipzig University, 04103 Leipzig, Germany
– sequence: 5
  givenname: Mike
  orcidid: 0000-0002-0932-8825
  surname: Francke
  fullname: Francke, Mike
  organization: Paul Flechsig Institute of Brain Research, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
– sequence: 6
  givenname: Peter
  orcidid: 0000-0002-5540-6847
  surname: Wiedemann
  fullname: Wiedemann, Peter
  organization: Department of Ophthalmology and Eye Hospital, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
– sequence: 7
  givenname: Andreas
  surname: Reichenbach
  fullname: Reichenbach, Andreas
  email: reia@medizin.uni-leipzig.de
  organization: Paul Flechsig Institute of Brain Research, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29609042$$D View this record in MEDLINE/PubMed
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Keywords OCT
Müller cell
FGF
IPL
INL
RPE
VEGF
Fovea
Optics
ACL
BCL
OPL
Astrocyte
ILM
ONL
GFAP
HFL
GCL
OLM
NFL
PDGF
Primate
RFL
Glia
Language English
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  publication-title: Vision Res.
  doi: 10.1016/0042-6989(82)90036-0
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Snippet A fovea is a pitted invagination in the inner retinal tissue (fovea interna) that overlies an area of photoreceptors specialized for high acuity vision (fovea...
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SubjectTerms Animals
Astrocyte
Astrocytes - cytology
Astrocytes - physiology
Ependymoglial Cells - cytology
Ependymoglial Cells - physiology
Fovea
Fovea Centralis - anatomy & histology
Fovea Centralis - embryology
Fovea Centralis - physiology
Glia
Glial Fibrillary Acidic Protein - metabolism
Humans
Macaca
Müller cell
Optics
Primate
Retinal Diseases - pathology
Title The primate fovea: Structure, function and development
URI https://dx.doi.org/10.1016/j.preteyeres.2018.03.006
https://www.ncbi.nlm.nih.gov/pubmed/29609042
https://www.proquest.com/docview/2021319060
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