Time outdoors and the prevention of myopia

Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been s...

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Bibliographic Details
Published inExperimental eye research Vol. 114; pp. 58 - 68
Main Authors French, Amanda N., Ashby, Regan S., Morgan, Ian G., Rose, Kathryn A.
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.09.2013
Subjects
Accommodation, Ocular
Animals
clinical trial
dopamine
Dopamine - metabolism
Environmental Exposure
Eye - growth & development
Eye - metabolism
Humans
incident myopia
Light
myopia
Myopia - prevention & control
myopia progression
outdoors
prevention
spiperone
Time Factors
clinical trial
incident myopia
outdoors
light
spiperone
myopia
myopia progression
dopamine
prevention
Online AccessGet full text
ISSN0014-4835
1096-0007
1096-0007
DOI10.1016/j.exer.2013.04.018

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Abstract Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been suggested that the mechanism of the protective effect of time outdoors involves light-stimulated release of dopamine from the retina, since increased dopamine release appears to inhibit increased axial elongation, which is the structural basis of myopia. This hypothesis has been supported by animal experiments which have replicated the protective effects of bright light against the development of myopia under laboratory conditions, and have shown that the effect is, at least in part, mediated by dopamine, since the D2-dopamine antagonist spiperone reduces the protective effect. There are some inconsistencies in the evidence, most notably the limited inhibition by bright light under laboratory conditions of lens-induced myopia in monkeys, but other proposed mechanisms possibly associated with time outdoors such as relaxed accommodation, more uniform dioptric space, increased pupil constriction, exposure to UV light, changes in the spectral composition of visible light, or increased physical activity have little epidemiological or experimental support. Irrespective of the mechanisms involved, clinical trials are now underway to reduce the development of myopia in children by increasing the amount of time they spend outdoors. These trials would benefit from more precise definition of thresholds for protection in terms of intensity and duration of light exposures. These can be investigated in animal experiments in appropriate models, and can also be determined in epidemiological studies, although more precise measurement of exposures than those currently provided by questionnaires is desirable. •Children who spend more time outdoors are less likely to be or become myopic.•This protection appears to be due to time outdoors, rather than engagement in sport.•Effect sizes suggest that more time outdoors could reduce myopia in children.•Dopamine release may be stimulated by bright outdoor light, inhibiting eye growth.•In contrast, it is not clear whether time outdoors slows progression of myopia.
AbstractList Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been suggested that the mechanism of the protective effect of time outdoors involves light-stimulated release of dopamine from the retina, since increased dopamine release appears to inhibit increased axial elongation, which is the structural basis of myopia. This hypothesis has been supported by animal experiments which have replicated the protective effects of bright light against the development of myopia under laboratory conditions, and have shown that the effect is, at least in part, mediated by dopamine, since the D2-dopamine antagonist spiperone reduces the protective effect. There are some inconsistencies in the evidence, most notably the limited inhibition by bright light under laboratory conditions of lens-induced myopia in monkeys, but other proposed mechanisms possibly associated with time outdoors such as relaxed accommodation, more uniform dioptric space, increased pupil constriction, exposure to UV light, changes in the spectral composition of visible light, or increased physical activity have little epidemiological or experimental support. Irrespective of the mechanisms involved, clinical trials are now underway to reduce the development of myopia in children by increasing the amount of time they spend outdoors. These trials would benefit from more precise definition of thresholds for protection in terms of intensity and duration of light exposures. These can be investigated in animal experiments in appropriate models, and can also be determined in epidemiological studies, although more precise measurement of exposures than those currently provided by questionnaires is desirable.Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been suggested that the mechanism of the protective effect of time outdoors involves light-stimulated release of dopamine from the retina, since increased dopamine release appears to inhibit increased axial elongation, which is the structural basis of myopia. This hypothesis has been supported by animal experiments which have replicated the protective effects of bright light against the development of myopia under laboratory conditions, and have shown that the effect is, at least in part, mediated by dopamine, since the D2-dopamine antagonist spiperone reduces the protective effect. There are some inconsistencies in the evidence, most notably the limited inhibition by bright light under laboratory conditions of lens-induced myopia in monkeys, but other proposed mechanisms possibly associated with time outdoors such as relaxed accommodation, more uniform dioptric space, increased pupil constriction, exposure to UV light, changes in the spectral composition of visible light, or increased physical activity have little epidemiological or experimental support. Irrespective of the mechanisms involved, clinical trials are now underway to reduce the development of myopia in children by increasing the amount of time they spend outdoors. These trials would benefit from more precise definition of thresholds for protection in terms of intensity and duration of light exposures. These can be investigated in animal experiments in appropriate models, and can also be determined in epidemiological studies, although more precise measurement of exposures than those currently provided by questionnaires is desirable.
Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been suggested that the mechanism of the protective effect of time outdoors involves light-stimulated release of dopamine from the retina, since increased dopamine release appears to inhibit increased axial elongation, which is the structural basis of myopia. This hypothesis has been supported by animal experiments which have replicated the protective effects of bright light against the development of myopia under laboratory conditions, and have shown that the effect is, at least in part, mediated by dopamine, since the D2-dopamine antagonist spiperone reduces the protective effect. There are some inconsistencies in the evidence, most notably the limited inhibition by bright light under laboratory conditions of lens-induced myopia in monkeys, but other proposed mechanisms possibly associated with time outdoors such as relaxed accommodation, more uniform dioptric space, increased pupil constriction, exposure to UV light, changes in the spectral composition of visible light, or increased physical activity have little epidemiological or experimental support. Irrespective of the mechanisms involved, clinical trials are now underway to reduce the development of myopia in children by increasing the amount of time they spend outdoors. These trials would benefit from more precise definition of thresholds for protection in terms of intensity and duration of light exposures. These can be investigated in animal experiments in appropriate models, and can also be determined in epidemiological studies, although more precise measurement of exposures than those currently provided by questionnaires is desirable.
Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near work they do, or whether their parents are myopic. It is currently uncertain if time outdoors also blocks progression of myopia. It has been suggested that the mechanism of the protective effect of time outdoors involves light-stimulated release of dopamine from the retina, since increased dopamine release appears to inhibit increased axial elongation, which is the structural basis of myopia. This hypothesis has been supported by animal experiments which have replicated the protective effects of bright light against the development of myopia under laboratory conditions, and have shown that the effect is, at least in part, mediated by dopamine, since the D2-dopamine antagonist spiperone reduces the protective effect. There are some inconsistencies in the evidence, most notably the limited inhibition by bright light under laboratory conditions of lens-induced myopia in monkeys, but other proposed mechanisms possibly associated with time outdoors such as relaxed accommodation, more uniform dioptric space, increased pupil constriction, exposure to UV light, changes in the spectral composition of visible light, or increased physical activity have little epidemiological or experimental support. Irrespective of the mechanisms involved, clinical trials are now underway to reduce the development of myopia in children by increasing the amount of time they spend outdoors. These trials would benefit from more precise definition of thresholds for protection in terms of intensity and duration of light exposures. These can be investigated in animal experiments in appropriate models, and can also be determined in epidemiological studies, although more precise measurement of exposures than those currently provided by questionnaires is desirable. •Children who spend more time outdoors are less likely to be or become myopic.•This protection appears to be due to time outdoors, rather than engagement in sport.•Effect sizes suggest that more time outdoors could reduce myopia in children.•Dopamine release may be stimulated by bright outdoor light, inhibiting eye growth.•In contrast, it is not clear whether time outdoors slows progression of myopia.
Author Ashby, Regan S.
French, Amanda N.
Rose, Kathryn A.
Morgan, Ian G.
Author_xml – sequence: 1
  givenname: Amanda N.
  surname: French
  fullname: French, Amanda N.
  organization: Discipline of Orthoptics, Faculty of Health Sciences, University of Sydney, Lidcombe, NSW 2011, Australia
– sequence: 2
  givenname: Regan S.
  surname: Ashby
  fullname: Ashby, Regan S.
  organization: Faculty of Applied Sciences, University of Canberra, Bruce, ACT 2617, Australia
– sequence: 3
  givenname: Ian G.
  surname: Morgan
  fullname: Morgan, Ian G.
  email: ian.morgan@anu.edu.au
  organization: Research School of Biology, Australian National University, GPO Box 475, Acton, ACT 2601, Australia
– sequence: 4
  givenname: Kathryn A.
  surname: Rose
  fullname: Rose, Kathryn A.
  organization: Discipline of Orthoptics, Faculty of Health Sciences, University of Sydney, Lidcombe, NSW 2011, Australia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/23644222$$D View this record in MEDLINE/PubMed
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Keywords clinical trial
incident myopia
outdoors
light
spiperone
myopia
myopia progression
dopamine
prevention
Language English
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Snippet Recent epidemiological evidence suggests that children who spend more time outdoors are less likely to be, or to become myopic, irrespective of how much near...
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SubjectTerms Accommodation, Ocular
Animals
clinical trial
dopamine
Dopamine - metabolism
Environmental Exposure
Eye - growth & development
Eye - metabolism
Humans
incident myopia
Light
myopia
Myopia - prevention & control
myopia progression
outdoors
prevention
spiperone
Time Factors
Title Time outdoors and the prevention of myopia
URI https://dx.doi.org/10.1016/j.exer.2013.04.018
https://www.ncbi.nlm.nih.gov/pubmed/23644222
https://www.proquest.com/docview/1420157516
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