View clinical trials related to Keratomileusis, Laser In Situ.
Filter by:To compare the efficacy to different profiles, direct head-to-head studies had been conducted. In one previous review study revealed that TG LASIK provided patient with better uncorrected visual acuity (UCVA) than WFO LASIK and WFG LASIK. In recent previous contralateral eye studies also showed that TG LASIK induced less postoperative higher-order aberration than WFO LASIK. However, these studies included only low-to-moderate myopia patients, for patients with high myopia (spherical equivalent > 6D), the effect of TG LASIK comparing with WFO LASIK had not been reported before. The aim of our study is to analyze and compare the visual performance of TG LASIK and WFO LASIK in high myopia and low-to-moderate myopia patients, , particularly UCVA, corrected distance visual acuity (CDVA), contrast sensitivity (CS), and wavefront aberration.
A recent survey of trends among the members of the American Society of Cataract and Refractive Surgery determined that laser in situ keratomileusis (LASIK) is the leading surgical procedure for photorefractive corrections ranging from −0 to 3 diopters (D).1 The same survey, however, showed a clear trend of participating refractive surgeons toward surface ablation. Photorefractive keratectomy (PRK) was the first refractive surgery procedure approved and performed using the excimer laser. Several techniques of epithelial debridement have been tried with PRK-type surgery including mechanical debridement, laser transepithelial ablation, a rotating brush, and alcohol debridement. The Amadeus II microkeratome (Advanced Medical Optics Inc, Irvine, CA, USA) used for the creation of a LASIK flap has an upgradeable platform that will allow the user to perform mechanical separation of the corneal epithelium before photorefractive treatments. With the use of this device, the corneal epithelium can be separated from the underlying stroma without previous preparation of the corneal surface with alcohol. The separated epithelial sheet can either be removed or replaced on the operated cornea after photoablation. This surgical procedure, which has been called Epi-LASIK, represents an advanced alternative surface ablation photorefractive procedure for the correction of ametropia. The purpose of this study is to evaluate the clinical visual outcomes, healing rates, and patient satisfaction when performing surface ablation procedures using mechanical vs. alcohol separation of the epithelium.