PURPOSE: The purpose of this study was to use the Arizona Eye Model to help
guide customization of corneal excimer ablation and reduce spherical aberr
ation.
METHODS: Myopic eyes were treated with the Nidek EC-5000 excimer laser with
a 5.5-mm diameter optic ablation zone and a 7.0-mm diameter transition abl
ation zone. We analyzed preoperative and postoperative corneal topographies
using height mapping, From this data, refractive error profiles and maps w
ere constructed using the Arizona Eye Model. The first group of patients ha
d refractions between -2.00 and -5.00 D. Data was obtained by subtracting p
ostoperative topography from preoperative topography. We then plotted the i
deal ablation pattern if no additional spherical aberration was introduced
when compared to preoperative topographies.
RESULTS: We found that in the central 4 mm, the ablation pattern was highly
acceptable, with negligible spherical aberration. As the ablation moved ou
t toward 6 mm, there;was increasing spherical aberration. Newer ablation de
signs require more flattening in the midperiphery of the cornea. These flat
ter peripheral designs require more blending in the periphery and larger tr
ansition zones.
CONCLUSION: The use of computerized corneal topography in eye modeling is h
elpful in designing new ablation patterns to reduce optical and spherical a
berration, Ablation zone design is critical to maximizing optical and biolo
gic tolerance.