Modeling Corneal Surfaces With Rational Functions for High-Speed Videokeratoscopy Data Compression

Schneider, Moritz; Iskander, D. Robert; Collins, Michael J.

doi:10.1109/tbme.2008.2006019

Cited by 25 publications

(14 citation statements)

References 23 publications

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“…While it is recognized that more sophisticated geometric models exist such as Zernike [26] and rational functions [27], which have the potential to more accurately represent corneal surface, these models have several limitations. Models based on Zernike polynomials may oscillate between values to be fitted, have poor asymptotic properties [28] and it is hard to assess a priori how many terms are necessary to achieve an acceptable fitting accuracy [29].…”

Section: Discussionmentioning

confidence: 99%

Evaluation of the Shape Symmetry of Bilateral Normal Corneas in a Chinese Population

Bao

Chen

et al. 2013

PLoS ONE

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PurposeTo investigate the bilateral symmetry of the global corneal topography in normal corneas with a wide range of curvature, astigmatism and thickness valuesDesignCross-Sectional StudyMethodsTopography images were recorded for the anterior and posterior surfaces of 342 participants using a Pentacam. Elevation data were fitted to a general quadratic model that considered both translational and rotational displacements. Comparisons between fellow corneas of estimates of corneal shape parameters (elevation, radius in two main directions, Rx and Ry, and corresponding shape factors, Qx and Qy) and corneal position parameters (translational displacements: x0, y0 and z0, and rotational displacements: α, β and γ) were statistically analyzed.ResultsThe general quadratic model provided average RMS of fit errors with the topography data of 1.7±0.6 µm and 5.7±1.3 µm in anterior and posterior corneal surfaces. The comparisons showed highly significant bilateral correlations with the differences between fellow corneas in Rx, Ry, Qx and Qy of anterior and posterior surfaces remaining insignificantly different from zero. Bilateral differences in elevation measurements at randomly-selected points in both corneal central and peripheral areas indicated strong mirror symmetry between fellow corneas. The mean geometric center (x0, y0, z0) of both right and left corneas was located on the temporal side and inferior-temporal side of the apex in anterior and posterior topography map, respectively. Rotational displacement angle α along X axis had similar distributions in bilateral corneas, while rotation angle β along Y axis showed both eyes tilting towards the nasal side. Further, rotation angle γ along Z axis, which is related to corneal astigmatism, showed clear mirror symmetry.ConclusionsAnalysis of corneal topography demonstrated strong and statistically-significant mirror symmetry between bilateral corneas. This characteristic could help in detection of pathological abnormalities, disease diagnosis, measurement validation and surgery planning.

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Section: Discussionmentioning

confidence: 99%

Evaluation of the Shape Symmetry of Bilateral Normal Corneas in a Chinese Population

Bao

Chen

et al. 2013

PLoS ONE

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“…Many alternative functional representations have been proposed to describe ophthalmic surfaces, ranging from generalised conic functions to more complicated representations such as the fractional Zernike polynomials and spherical harmonics . Other techniques include combinations of modal and zonal approaches .…”

Section: Introductionmentioning

confidence: 99%

Zernike vs. Bessel circular functions in visual optics

Treviño¹,

Gómez-Correa²,

Iskander

et al. 2013

Ophthalmic Physiologic Optic

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“…On the one hand, their low dimensionality facilitates a simple, fast and robust implementation, which consists of subtracting the mean and fitting the eigenvectors to the residual. The possibility of a complete characterization of the corneal shape with just a few parameters may be useful as well, such as in data compression . Furthermore, each eigenvector coefficient means a progressively finer correction to the initial rough approximation given by the mean.…”

Section: Discussionmentioning

confidence: 99%

Eigencorneas: application of principal component analysis to corneal topography

Rodríguez

Navarro

Rozema

2014

Ophthalmic Physiologic Optic

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The combination of Zernike fit and Principal Component Analysis yields a strong reduction of dimensionality of elevation topography data, to only 19 independent parameters (18 DoF plus population average), which indicates a high degree of correlation existing between anterior and posterior surfaces, and between eyes. The resulting eigencorneas are especially well suited for practical applications, as they are uncorrelated and orthonormal linear combinations of Zernike polynomials.

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Modeling Corneal Surfaces With Rational Functions for High-Speed Videokeratoscopy Data Compression

Cited by 25 publications

References 23 publications

Evaluation of the Shape Symmetry of Bilateral Normal Corneas in a Chinese Population

Evaluation of the Shape Symmetry of Bilateral Normal Corneas in a Chinese Population

Zernike vs. Bessel circular functions in visual optics

Eigencorneas: application of principal component analysis to corneal topography

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