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Journal of Modern Optics Volume 56, 2009 - Issue 20: The Stiles–Crawford Effects and Photoreceptor Optics A celebration of the 75th anniversary of the discovery of the Stiles–Crawford Effect
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Original Articles

Cone directionality from laser ray tracing in normal and LASIK patients

Susana Marcos Instituto de Óptica, Consejo Superior de Investigaciones Científicas, Serrano 121, Madrid 28006, SpainCorrespondence[email protected]
&
Stephen A. Burns School of Optometry, Indiana University, 800 E. Atwater, Bloomington, IN 47405, USA
Pages 2181-2188 | Received 30 Dec 2008, Accepted 26 Mar 2009, Published online: 14 May 2009
 
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Abstract

Laser ray tracing, a technique originally developed to measure ocular aberrations from the deviations of the local ray aberrations as a function of entry pupil, was used to assess cone directionality in 29 normal eyes (seven of which underwent LASIK surgery) and seven eyes after LASIK corneal refractive surgery for myopia. The total intensity of the retinal aerial images was computed as a function of the entry location of the illuminated beam. The measured intensity distribution was fit to a two-dimensional Gaussian function plus a constant background. The maximum of the distribution represents the pupillary location toward which the cone photoreceptors are oriented (peak of the optical Stiles–Crawford, SCE, function). We found the average SCE peak location was located mm nasally and mm inferiorly to the center of the pupil. In general, there was not a relation between the pupillary area of best quality and SCE peak location, either pre-operatively or post-operatively. The cone directionality shape factor was also unchanged by surgery. However, in two eyes, pre- and post-operative SCE peak location changed significantly. LASIK refractive surgery decreased the MTF in all eyes, even when the actual SCE directionality of the subject is considered. In the two eyes that showed significantly different SCE peak location, the apodized post-operative MTF with the post-operative SCE peak exceeded the simulated post-operative MTF assuming no shift in the SCE peak. However, the statistical power of these two cases is low, and the general findings are consistent with the hypothesis that differences in optical quality are not a major driving mechanism for cone orientation.

Acknowledgements

This work was supported by EURYI-05-102-ES (EUROHORCS-ESF) and FIS2008-02065 (Spanish Ministry of Science and Innovation) to SM; EYO4395 to SB.

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