New algorithm for post-radial keratotomy intraocular lens power calculations based on rotating Scheimpflug camera data

摘要

Purpose: To provide an algorithm to calculate intraocular lens (IOL) power for post-radial keratometry (RK) eyes based on data extracted from the Pentacam Scheimpflug camera and to compare calculations with those from an existing standard. Setting: Private practice, Mesa, Arizona. Design: Case series. Methods: Relevant IOL calculation and postoperative refractive data were obtained for eyes that had previous RK but no additional keratorefractive procedures or subsequent cataract surgery. Various Scheimpflug measurements from examinations before cataract surgery over a range of zone diameters were used to calculate IOL power using an Aramberri double-K-modified Holladay 1 formula. Results were compared with actual postsurgical data and IOL calculations based on the mean of the 1.0 mm to 4.0 mm rings from the Atlas topography system. Results: Data were obtained for 83 eyes of 57 patients, including more than 120 different measures per eye from the Scheimpflug system. The mean pupil-centered sagittal front power over the central 4.0 mm zone provided the best results after adjustment for central corneal thickness (CCT). Results were similar to those obtained when the IOL power was calculated using the topography system; 42% of eyes were within ??0.50 diopter (D) of the target, and 76% of eyes were within ??1.00 D. Conclusion: In this large series of eyes, the calculation of IOL power after RK using sagittal front-surface power and CCT from the Scheimpflug system produced results equivalent to the multizone approach with the topography system. Financial Disclosure: Neither author has a financial or proprietary interest in any material or method mentioned. ? 2012 ASCRS and ESCRS Published by Elsevier Inc.