Depth of focus and visual acuity with primary and secondary spherical aberration

► We estimate optimal combinations of spherical aberrations to extend depth of focus. ► We examine these combinations of wavefront in real eyes with adaptive optics. ► Spherical aberrations help to extend depth of focus while decreasing visual acuity. ► Primary or secondary spherical aberration alon...

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Published inVision research (Oxford) Vol. 51; no. 14; pp. 1648 - 1658
Main Authors Yi, Fan, Robert Iskander, D., Collins, Michael
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 15.07.2011
Elsevier
Subjects
Aberrometry
Accommodation, Ocular - physiology
Adaptation, Ocular - physiology
Adaptive optics
Adult
Algorithms
Biological and medical sciences
Corneal Wavefront Aberration - physiopathology
Depth of focus
Depth Perception - physiology
Eye and associated structures. Visual pathways and centers. Vision
Female
Fixation, Ocular - physiology
Fundamental and applied biological sciences. Psychology
Higher order aberrations
Humans
Male
Models, Biological
Refractive Errors - physiopathology
Retinal image quality metric
Vertebrates: nervous system and sense organs
Visual Acuity - physiology
Young Adult
Adaptive optics
Retinal image quality metric
Higher order aberrations
Depth of focus
Eye
Visual system
Visual acuity
Retina
Depth
Online AccessGet full text
ISSN0042-6989
1878-5646
1878-5646
DOI10.1016/j.visres.2011.05.006

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Abstract ► We estimate optimal combinations of spherical aberrations to extend depth of focus. ► We examine these combinations of wavefront in real eyes with adaptive optics. ► Spherical aberrations help to extend depth of focus while decreasing visual acuity. ► Primary or secondary spherical aberration alone is equally effective to extend DOF. ► Their combinations of different signs can extend DOF with a smaller loss of VA. It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary and secondary Zernike spherical aberration to expand the DOF and evaluated their efficiency in real eyes using an adaptive optics system. The ratio between increased DOF and loss of visual acuity was used as the performance indicator. The results indicate that primary or secondary spherical aberration alone shows similar effectiveness in extending the DOF. However, combinations of primary and secondary spherical aberration with different signs provide better efficiency for expanding the DOF. This finding suggests that the optimal combinations of primary and secondary spherical aberration may be useful in the design of optical presbyopic corrections.
AbstractList It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary and secondary Zernike spherical aberration to expand the DOF and evaluated their efficiency in real eyes using an adaptive optics system. The ratio between increased DOF and loss of visual acuity was used as the performance indicator. The results indicate that primary or secondary spherical aberration alone shows similar effectiveness in extending the DOF. However, combinations of primary and secondary spherical aberration with different signs provide better efficiency for expanding the DOF. This finding suggests that the optimal combinations of primary and secondary spherical aberration may be useful in the design of optical presbyopic corrections.It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary and secondary Zernike spherical aberration to expand the DOF and evaluated their efficiency in real eyes using an adaptive optics system. The ratio between increased DOF and loss of visual acuity was used as the performance indicator. The results indicate that primary or secondary spherical aberration alone shows similar effectiveness in extending the DOF. However, combinations of primary and secondary spherical aberration with different signs provide better efficiency for expanding the DOF. This finding suggests that the optimal combinations of primary and secondary spherical aberration may be useful in the design of optical presbyopic corrections.
It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary and secondary Zernike spherical aberration to expand the DOF and evaluated their efficiency in real eyes using an adaptive optics system. The ratio between increased DOF and loss of visual acuity was used as the performance indicator. The results indicate that primary or secondary spherical aberration alone shows similar effectiveness in extending the DOF. However, combinations of primary and secondary spherical aberration with different signs provide better efficiency for expanding the DOF. This finding suggests that the optimal combinations of primary and secondary spherical aberration may be useful in the design of optical presbyopic corrections.
► We estimate optimal combinations of spherical aberrations to extend depth of focus. ► We examine these combinations of wavefront in real eyes with adaptive optics. ► Spherical aberrations help to extend depth of focus while decreasing visual acuity. ► Primary or secondary spherical aberration alone is equally effective to extend DOF. ► Their combinations of different signs can extend DOF with a smaller loss of VA. It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary and secondary Zernike spherical aberration to expand the DOF and evaluated their efficiency in real eyes using an adaptive optics system. The ratio between increased DOF and loss of visual acuity was used as the performance indicator. The results indicate that primary or secondary spherical aberration alone shows similar effectiveness in extending the DOF. However, combinations of primary and secondary spherical aberration with different signs provide better efficiency for expanding the DOF. This finding suggests that the optimal combinations of primary and secondary spherical aberration may be useful in the design of optical presbyopic corrections.
Author Robert Iskander, D.
Yi, Fan
Collins, Michael
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  surname: Collins
  fullname: Collins, Michael
  organization: Contact Lens and Visual Optics Laboratory, School of Optometry, Queensland University of Technology, Brisbane, Australia
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Issue 14
Keywords Adaptive optics
Retinal image quality metric
Higher order aberrations
Depth of focus
Eye
Visual system
Visual acuity
Retina
Depth
Language English
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  start-page: 272
  year: 2004
  ident: 10.1016/j.visres.2011.05.006_b0050
  article-title: A population study on changes in wave aberrations with accommodation
  publication-title: Journal of Vision
  doi: 10.1167/4.4.3
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Snippet ► We estimate optimal combinations of spherical aberrations to extend depth of focus. ► We examine these combinations of wavefront in real eyes with adaptive...
It is known that the depth of focus (DOF) of the human eye can be affected by the higher order aberrations. We estimated the optimal combinations of primary...
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SubjectTerms Aberrometry
Accommodation, Ocular - physiology
Adaptation, Ocular - physiology
Adaptive optics
Adult
Algorithms
Biological and medical sciences
Corneal Wavefront Aberration - physiopathology
Depth of focus
Depth Perception - physiology
Eye and associated structures. Visual pathways and centers. Vision
Female
Fixation, Ocular - physiology
Fundamental and applied biological sciences. Psychology
Higher order aberrations
Humans
Male
Models, Biological
Refractive Errors - physiopathology
Retinal image quality metric
Vertebrates: nervous system and sense organs
Visual Acuity - physiology
Young Adult
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Title Depth of focus and visual acuity with primary and secondary spherical aberration
URI https://dx.doi.org/10.1016/j.visres.2011.05.006
https://www.ncbi.nlm.nih.gov/pubmed/21609729
https://www.proquest.com/docview/880999357
https://www.proquest.com/docview/893268950
https://eprints.qut.edu.au/42171/1/42171.pdf
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