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Carlos G. Arce, MD

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Qualitative and Quantitative Analysis of Aspheric Symmetry and Asymmetry on Corneal Surfaces Carlos G. Arce, MD Associate Researcher and Ophthalmologist – PowerPoint PPT presentation

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Title: Carlos G. Arce, MD


1
Qualitative and Quantitative Analysis of Aspheric
Symmetry and Asymmetry on Corneal Surfaces
  • Carlos G. Arce, MD

Associate Researcher and Ophthalmologist Ocular
Bioengineering Refractive Surgery Sectors,
Institute of Vision, Department of
Ophthalmology, Paulista School of Medicine,
Federal University of São Paulo, Brazil
Medical Director - R D Consultant, Ziemer Group
AG, Port, Switzerland carlos.arce_at_ziemergroup.com
Speaker, Bausch Lomb do Brasil Territory
Manager for Latin America, Vista Optics Limited,
Widnes, UK Author does not have financial
interest in the commercialization of equipments
mentioned
2
Purpose
  • To describe a method how aspheric symmetry or
    asymmetry of corneal surfaces may be assessed and
    the patterns found in normal corneas and with
    keratoconus
  • Qualitative Galilei best fit toric aspheric
    (BFTA) elevation maps with a custom ANSI style 5
    µm color scale were used to evaluate the aspheric
    symmetry or asymmetry of both corneal surfaces
  • Quantitatively 1 Kraneman-Arce index was defined
  • Quantitatively 2 The coma found with the Galilei
    corneal wave front report was correlated with the
    patterns found using the BFTA elevation maps

Methods
3
Concept of Asphericity
  • All corneas have symmetric or asymmetric toric
    aspheric surfaces.
  • Symmetric aspheric meridians have uniform change
    of curvature from the center to the periphery in
    both hemimeridians
  • Symmetric aspheric meridians fits well the BFTA
    referential surface and therefore will have
    elevation values close to zero with points within
    the green range ( 5 µm)
  • Asymmetric aspheric meridians have different
    change of curvature from the center to the
    periphery in each hemimeridian
  • When curvature has a slower progression rate the
    elevation values are negative and therefore
    points are within the blue range ( -10 µm)
  • When curvature has a faster progression rate the
    elevation values are positive and therefore
    points are within the yellow range ( 10 µm)

4
Concept of Asphericity
  • Kranemann-Arce index Designed to quantify the
    asymmetry of asphericity of a corneal surface
  • K-A Index is the total difference between the
    maximum negative BFTA elevation and maximum
    positive BFTA elevation (without considering
    mathematic sign) within central 6-mm-diameter
    data zone

Example (Anterior Surface) Max negative
elevation (in the blue range) -10 µm Max
positive elevation (in the yellow range) 15
µm Kranemann-Arce index 10 15 25
µm Example (PosteriorSurface) Max negative
elevation -28 µm Max positive elevation 30
µm Kranemann-Arce index 28 30 58
µm Symmetric aspheric meridian Both
hemimeridians within the green range in the 120
to 300 meridian (blue line) Asymmetric
asphericity Hemimeridians with blue or yellow in
the 20 to 200 meridian (red line) In this case
both surfaces had congruent symmetry and
asymmetry of asphericity
5
Case A Congruent symmetric asphericity of both
surfaces in normal astigmatic cornea Case B
Incongruent symmetric asphericity of anterior
surface and asymmetric asphericity of posterior
surface in a cornea with crossed astigmatic Case
C Congruent asymmetric asphericity of both
surfaces in normal astigmatic cornea with
asymmetry more related with the flatter axis of
astigmatism Case D Congruent asymmetric
asphericity of both surfaces in a cornea with
keratoconus with asymmetry more related with the
steeper axis of astigmatism
BFS (at left) and BFTA (at right)
elevation maps of anterior (top) and
posterior (bottom) corneal surfaces
  • Red line
  • - Steeper axis of astigmatism
  • Asymmetric aspheric meridian
  • Blue line
  • - Flatter axs of astigmatism
  • - Symmetric aspheric meridian

C
6
Custom Selection of IOL
Coma 0.91 D _at_ 62.7
  • Standard (SA 0.18 µm)
  • AcrySof IQ (SA -0.20 µm)
  • Tecnis (SA -0.27 µm)
  • SofPort (SA 0 µm)
  • Rayner (SA 0 µm)

Spherical Aberration 0.29 µm -0.22 D
central rays focus beyond outer rays
central rays focus in front of outer rays
  • Galilei measures the total corneal wave front
    from
  • both surfaces
  • Spherical aberration is linked to contrast
    sensitivity
  • Coma is linked to aspheric asymmetry and
  • keratoconus progression
  • Hypothesis Symmetry or asymmetry of aspheric
    corneal
  • surfaces may be related with satisfaction or
    visual symptoms
  • and complains after implantation of IOLs with
    symmetric
  • aspheric surfaces

All rays are focused at same point
7
Conclusions
  • Normal corneas and with keratoconus have a
    variety of patterns of BFTA elevation maps.
  • Aspheric asymmetry of corneal surfaces is easy
    recognized by using the BFTA elevation maps.
  • Aspheric symmetry was represented by a more green
    map and asymmetry was recognized by blue and
    yellow zones usually in the same meridian but
    opposite side.
  • Aspheric asymmetry of anterior surface seems to
    correlate with the amount of corneal coma
    especially when asymmetric (irregular)
    astigmatism was present.
  • Normal corneas had aspheric symmetry of both
    corneal surfaces, asymmetry of only one of them,
    or asymmetry on both.
  • The axis of the aspheric asymmetry may fit the
    flatter axis of astigmatism, the steeper axis of
    astigmatism or none of them.
  • The aspheric asymmetry of both surfaces may be
    oriented in the same or in different axis.
  • Corneas with keratoconus use to have congruent
    asymmetry of both surfaces at the same axis.
  • The relation of these corneal surface shapes and
    visual symptoms after multiphocal IOL implantatio
    is under study
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