Spot Size and Quality of Scanning Laser Correction of Higher-order Wavefront Aberrations

Overview

Journal J Cataract Refract Surg

Specialty Ophthalmology

Date 2002 Apr 26

PMID 11973085

Citations 7

Authors

David Huang

Muhammad Arif

Affiliations

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Abstract

Purpose: To investigate the effect of laser spot size on the outcome of aberration correction with scanning laser corneal ablation.

Setting: Cleveland Clinic Foundation, Cleveland, Ohio, USA.

Methods: Corrections of wavefront aberrations of Zernike modes from the second to eighth order were simulated. Gaussian and top-hat beams of 0.6 to 2.0 mm full-width-half-maximum diameters were modeled. The fractional correction and secondary aberration (distortion) were evaluated.

Results: Using a distortion/correction ratio of less than 0.5 as a cutoff for adequate performance, a 2.0 mm or smaller beam was adequate for spherocylindrical correction (Zernike second order), a 1.0 mm or smaller beam was adequate for correction of up to fourth-order Zernike modes, and a 0.6 mm or smaller beam was adequate for correction of up to sixth-order Zernike modes.

Conclusions: Since ocular aberrations above the Zernike fourth order are relatively insignificant in normal eyes, current scanning lasers with a beam diameter of 1.0 mm or less are theoretically capable of eliminating most higher-order aberrations.

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