Literature DB >> 7500201

Representation of videokeratoscopic height data with Zernike polynomials.

J Schwiegerling1, J E Greivenkamp, J M Miller.   

Abstract

Videokeratoscopic data are generally displayed as a color-coded map of corneal refractive power, corneal curvature, or surface height. Although the merits of the refractive power and curvature methods have been extensively debated, the display of corneal surface height demands further investigation. A significant drawback to viewing corneal surface height is that the spherical and cylindrical components of the cornea obscure small variations in the surface. To overcome this drawback, a methodology for decomposing corneal height data into a unique set of Zernike polynomials is presented. Repeatedly removing the low-order Zernike terms reveals the hidden height variations. Examples of the decomposition-and-display technique are shown for cases of astigmatism, keratoconus, and radial keratotomy.

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Year:  1995        PMID: 7500201     DOI: 10.1364/josaa.12.002105

Source DB:  PubMed          Journal:  J Opt Soc Am A Opt Image Sci Vis        ISSN: 1084-7529            Impact factor:   2.129


  21 in total

1.  Automated decision tree classification of corneal shape.

Authors:  Michael D Twa; Srinivasan Parthasarathy; Cynthia Roberts; Ashraf M Mahmoud; Thomas W Raasch; Mark A Bullimore
Journal:  Optom Vis Sci       Date:  2005-12       Impact factor: 1.973

2.  [Wavefront analysis for the diagnosis of subclinical keratoconus].

Authors:  J Bühren; C Kühne; T Kohnen
Journal:  Ophthalmologe       Date:  2006-09       Impact factor: 1.059

3.  General method to derive the relationship between two sets of Zernike coefficients corresponding to different aperture sizes.

Authors:  Huazhong Shu; Limin Luo; Guoniu Han; Jean-Louis Coatrieux
Journal:  J Opt Soc Am A Opt Image Sci Vis       Date:  2006-08       Impact factor: 2.129

4.  [Application of wavefront analysis in clinical and scientific settings. From irregular astigmatism to aberrations of a higher order--Part I: Basic principles].

Authors:  J Bühren; T Kohnen
Journal:  Ophthalmologe       Date:  2007-10       Impact factor: 1.059

5.  Four discriminant models for detecting keratoconus pattern using Zernike coefficients of corneal aberrations.

Authors:  Makoto Saika; Naoyuki Maeda; Yoko Hirohara; Toshifumi Mihashi; Takashi Fujikado; Kohji Nishida
Journal:  Jpn J Ophthalmol       Date:  2013-08-27       Impact factor: 2.447

6.  Contact lenses and special back surface design after penetrating keratoplasty to improve contact lens fit and visual outcome.

Authors:  C Gruenauer-Kloevekorn; U Kloevekorn-Fischer; G I W Duncker
Journal:  Br J Ophthalmol       Date:  2005-12       Impact factor: 4.638

Review 7.  [Corneal topography and keratoconus diagnostics with Scheimpflug photography].

Authors:  J Bühren
Journal:  Ophthalmologe       Date:  2014-10       Impact factor: 1.059

8.  Method for expressing clinical and statistical significance of ocular and corneal wave front error aberrations.

Authors:  Michael K Smolek
Journal:  Cornea       Date:  2012-03       Impact factor: 2.651

9.  Pellucid marginal corneal degeneration: evaluation of the corneal surface and contact lens fitting.

Authors:  C Gruenauer-Kloevekorn; U Fischer; K Kloevekorn-Norgall; G I W Duncker
Journal:  Br J Ophthalmol       Date:  2006-03       Impact factor: 4.638

10.  Inverse optical design of the human eye using likelihood methods and wavefront sensing.

Authors:  Julia A Sakamoto; Harrison H Barrett; Alexander V Goncharov
Journal:  Opt Express       Date:  2008-01-07       Impact factor: 3.894
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