In the study of 191 patients, Walter evaluated 12 variables that were suspected to affect LASIK results. These factors included age, sex, environmental factors such as room and outdoor temperature, and curvature of the cornea, the clear, front part of the eye that provides most of the focusing power.
LASIK, which stands for Laser-Assisted In Situ Keratomileusis, is a procedure that permanently changes the shape of the cornea using an ultraviolet laser.
“The goal of LASIK should be for a maximum number of patients to achieve eyeglass-free vision with a single procedure,” said Walter. “This study evaluated environmental variables that may influence outcomes.”
Walter performed the surgery on 368 eyes, with an average of 15.5 percent requiring a second procedure to fine-tune vision. An analysis of the variables showed that indoor humidity had the largest impact on whether enhancement surgery was required. But, outdoor temperature and humidity in the two weeks before surgery also played a role.
Walter said additional moisture in the air may decrease the laser energy absorbed by the stroma, the thickest layer of tissue in the cornea. Also, some patients’ corneas may become more hydrated before the procedure, making it more difficult for the laser to remove tissue.
“Environmental data should play a role in how the equipment is programmed to further refine the visual outcome,” said Walter. He has developed a formula for programming the equipment at Wake Forest, and has already seen improved results.
“Our study doesn’t mean that consumers should avoid LASIK surgery during the summer,” said Walter. “But they should make sure that their physicians compensate for temperature and humidity.”
Walter’s co-researcher was Aaron W. Stevenson, a medical student at Wake Forest.
Text for this article comes from a Wake Forest Baptist Medical Center press release.