Not all aberrations are equal: reading impairment depends on aberration type and magnitude
Not all aberrations are equal: reading impairment depends on aberration type and magnitude
The eye's optical components are imperfect and cause distortions in the retinal image that cannot be corrected completely by conventional spectacles. It is important to understand how these uncorrected aberrations (those excluding defocus and primary astigmatism) affect visual performance. We assessed reading performance using text with a simulated monochromatic aberration (defocus, coma, or secondary astigmatism), all of which typically occur in the normal population. We found that the rate of decline in reading performance with increasing aberration amplitude was smaller for coma than for secondary astigmatism or defocus. Defocus and secondary astigmatism clearly had an impact on word identification, as revealed by an analysis of a lexical frequency effect. The spatial form changes caused by these aberrations are particularly disruptive to letter identification, which in turn impacts word recognition and has consequences for further linguistic processing. Coma did not have a significant effect on word identification. We attribute reading impairment caused by coma to effects on saccade targeting, possibly due to changes in the spacings between letters. Effects on performance were not accompanied by a loss of comprehension confirming that even if an aberration is not severe enough to make text illegible it may still have a significant impact on reading.
1-19
Young, L.K.
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Liversedge, Simon P.
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Love, G.D.
7cfe4260-9ddd-4ad9-8d06-9f183cdf4815
Myers, R.M.
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Smithson, H.E.
7081cdc8-519f-4aab-bbb8-966dbac5982c
22 November 2011
Young, L.K.
d5ae370c-76da-439a-8e80-0b3776ed947f
Liversedge, Simon P.
3ebda3f3-d930-4f89-85d5-5654d8fe7dee
Love, G.D.
7cfe4260-9ddd-4ad9-8d06-9f183cdf4815
Myers, R.M.
3f98e7b3-9121-4d33-8bff-596df990f695
Smithson, H.E.
7081cdc8-519f-4aab-bbb8-966dbac5982c
Young, L.K., Liversedge, Simon P., Love, G.D., Myers, R.M. and Smithson, H.E.
(2011)
Not all aberrations are equal: reading impairment depends on aberration type and magnitude.
Journal of Vision, 11 (13), .
(doi:10.1167/11.13.20).
Abstract
The eye's optical components are imperfect and cause distortions in the retinal image that cannot be corrected completely by conventional spectacles. It is important to understand how these uncorrected aberrations (those excluding defocus and primary astigmatism) affect visual performance. We assessed reading performance using text with a simulated monochromatic aberration (defocus, coma, or secondary astigmatism), all of which typically occur in the normal population. We found that the rate of decline in reading performance with increasing aberration amplitude was smaller for coma than for secondary astigmatism or defocus. Defocus and secondary astigmatism clearly had an impact on word identification, as revealed by an analysis of a lexical frequency effect. The spatial form changes caused by these aberrations are particularly disruptive to letter identification, which in turn impacts word recognition and has consequences for further linguistic processing. Coma did not have a significant effect on word identification. We attribute reading impairment caused by coma to effects on saccade targeting, possibly due to changes in the spacings between letters. Effects on performance were not accompanied by a loss of comprehension confirming that even if an aberration is not severe enough to make text illegible it may still have a significant impact on reading.
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Accepted/In Press date: 1 October 2011
Published date: 22 November 2011
Identifiers
Local EPrints ID: 201831
URI: http://eprints.soton.ac.uk/id/eprint/201831
ISSN: 1534-7362
PURE UUID: c91c342a-9aa8-481d-903c-148765c77497
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Date deposited: 01 Nov 2011 16:47
Last modified: 14 Mar 2024 04:22
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Contributors
Author:
L.K. Young
Author:
Simon P. Liversedge
Author:
G.D. Love
Author:
R.M. Myers
Author:
H.E. Smithson
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