Literature DB >> 21241926

Surface ablation techniques.

Suphi Taneri1, Michael Weisberg, Dimitri T Azar.   

Abstract

The ongoing quest for a safe, simple, effective, minimally invasive, and stable refractive surgical procedure to correct refractive errors has stimulated the development of surface ablation techniques and laser in situ keratomileusis. In this review, we describe the history, patient assessment, techniques, outcomes, and complications of surface ablation (photorefractive keratectomy, laser-assisted sub-epithelial keratectomy, epithelial laser-assisted in situ keratomileusis) and compare the results of various surface techniques. Surface ablation procedures will continue to evolve, with potential improvements in outcomes accompanying future sophisticated ablation profiles and laser technology.
Copyright © 2011 ASCRS and ESCRS. Published by Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21241926     DOI: 10.1016/j.jcrs.2010.11.013

Source DB:  PubMed          Journal:  J Cataract Refract Surg        ISSN: 0886-3350            Impact factor:   3.351


  15 in total

1.  Kappa angles in different positions in patients with myopia during LASIK.

Authors:  Hui Qi; Jing-Jing Jiang; Yan-Ming Jiang; Li-Qiang Wang; Yi-Fei Huang
Journal:  Int J Ophthalmol       Date:  2016-04-18       Impact factor: 1.779

2.  Vorinostat: a potent agent to prevent and treat laser-induced corneal haze.

Authors:  Ashish Tandon; Jonathan C K Tovey; Michael R Waggoner; Ajay Sharma; John W Cowden; Daniel J Gibson; Yuanjing Liu; Gregory S Schultz; Rajiv R Mohan
Journal:  J Refract Surg       Date:  2012-03-01       Impact factor: 3.573

3.  Four-year to seven-year outcomes of advanced surface ablation with excimer laser for high myopia.

Authors:  Rasmus Søgaard Hansen; Niels Lyhne; Jakob Grauslund; Keea Treu Grønbech; Anders Højslet Vestergaard
Journal:  Graefes Arch Clin Exp Ophthalmol       Date:  2015-01-13       Impact factor: 3.117

4.  Corneal antifibrotic switch identified in genetic and pharmacological deficiency of vimentin.

Authors:  Paola Bargagna-Mohan; Riya R Paranthan; Adel Hamza; Chang-Guo Zhan; Do-Min Lee; Kyung Bo Kim; Daniel L Lau; Cidambi Srinivasan; Keiko Nakayama; Keiichi I Nakayama; Harald Herrmann; Royce Mohan
Journal:  J Biol Chem       Date:  2011-11-22       Impact factor: 5.157

5.  Single-Step Transepithelial Photorefractive Keratectomy in Low to Moderate Myopia: A One-Year Follow-Up Study.

Authors:  Shereef M Abdelwahab; Mohamed Hany Salem; Maha A Elfayoumi
Journal:  Clin Ophthalmol       Date:  2021-08-09

6.  Analysis of corneal biomechanical properties 25 years after myopic photorefractive keratectomy.

Authors:  Sibel Özdoğan; Gökhan Gürelik; Kamil Bilgihan
Journal:  Int Ophthalmol       Date:  2022-08-02       Impact factor: 2.029

Review 7.  Laser-assisted subepithelial keratectomy (LASEK) versus photorefractive keratectomy (PRK) for correction of myopia.

Authors:  Shi-Ming Li; Siyan Zhan; Si-Yuan Li; Xiao-Xia Peng; Jing Hu; Hua Andrew Law; Ning-Li Wang
Journal:  Cochrane Database Syst Rev       Date:  2016-02-22

8.  Effect of Mitomycin C on Myopic versus Astigmatic Photorefractive Keratectomy.

Authors:  Ashwag A Almosa; Samah M Fawzy
Journal:  J Ophthalmol       Date:  2017-03-14       Impact factor: 1.909

9.  The results of photorefractive keratectomy with Mitomycin-C in myopia correction after 5 years.

Authors:  Masih Hashemi; Mohammad Aghazadeh Amiri; Mehdi Tabatabaee; Ali Ayatollahi
Journal:  Pak J Med Sci       Date:  2016 Jan-Feb       Impact factor: 1.088

10.  Single-Step Transepithelial PRK vs Alcohol-Assisted PRK in Myopia and Compound Myopic Astigmatism Correction.

Authors:  Bartlomiej J Kaluzny; Iwona Cieslinska; Samuel A Mosquera; Shwetabh Verma
Journal:  Medicine (Baltimore)       Date:  2016-02       Impact factor: 1.817
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