International Journal of Keratoconus and Ectatic Corneal Diseases

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VOLUME 6 , ISSUE 2 ( July-December, 2017 ) > List of Articles

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First Clinical Impressions on the Integrated Corneal Tomography and Corneal Deformation with Scheimpflug Imaging

Jorge S Haddad, Eliza Barnwell, Karolinne M Rocha, George O Waring IV

Citation Information : Haddad JS, Barnwell E, Rocha KM, Waring IV GO. First Clinical Impressions on the Integrated Corneal Tomography and Corneal Deformation with Scheimpflug Imaging. Int J Kerat Ect Cor Dis 2017; 6 (2):101-109.

DOI: 10.5005/jp-journals-10025-1151

License: CC BY 3.0

Published Online: 01-09-2017

Copyright Statement:  Copyright © 2017; The Author(s).


Abstract

How to cite this article

Haddad JS, Barnwell E, Rocha KM, Waring IV GO, Ambrosio Jr R. First Clinical Impressions on the Integrated Corneal Tomography and Corneal Deformation with Scheimpflug Imaging. Int J Kerat Ect Cor Dis 2017;6(2):101-109.


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  1. Computerized corneal topography and its importance to wavefront technology. Cornea 2001 Jul;20(5):441-454.
  2. Imaging of the cornea: topography vs tomography. J Refract Surg 2010 Nov;26(11):847-849.
  3. Complications of laser in situ keratomileusis: etiology, prevention, and treatment. J Refract Surg 2001 May-Jun;17(3):350-379.
  4. Association between the percent tissue altered and post-laser in situ keratomileusis ectasia in eyes with normal preoperative topography. Am J Ophthalmol 2014 Dec;158(6):1358-1359.
  5. Determining in vivo biomechanical properties of the cornea with an ocular response analyzer. J Cataract Refract Surg 2005 Jan;31(1):156-162.
  6. Reproducibility and clinical relevance of the ocular response analyzer in nonoperated eyes: corneal biomechanical and tonometric implications. Invest Ophthamol Vis Sci 2008 Mar;49(3):968-974.
  7. Dynamic ultra high speed Scheimpflug imaging for assessing corneal biomechanical properties. Rev Bras Oftalmol 2013 Mar-Apr;72(2):99-102.
  8. Corneal biomechanics as a function of intraocular pressure and pachymetry by dynamic infrared signal and Scheimpflug imaging analysis in normal eyes. Am J Ophthalmol 2014 Apr;157(4):885-893.
  9. Ability of corneal biomechanical metrics and anterior segment data in the differentiation of keratoconus and healthy corneas. Arq Bras Oftalmol 2010 Jul-Aug;73(4):333-337.
  10. Biomechanical and tomographic analysis of unilateral keratoconus. J Refract Surg 2010 Sep;26(9):677-681.
  11. Integration of scheimpflug-based corneal tomography and biomechanical assessments for enhancing ectasia detection. J Refract Surg 2017 Jul;33(7):434-443.
  12. Detection of keratoconus with a new biomechanical index. J Refract Surg 2016 Dec;32(12):803-810.
  13. Novel pachymetric parameters based on corneal tomography for diagnosing keratoconus. J Refract Surg 2011 Oct;27(10):753-758.
  14. Enhanced screening for ectasia risk prior to laser vision correction. Int J Keratoconus Ectatic Corneal Dis 2017 Jan-Jun;6(1):23-33.
  15. Keratoconus and corneal ectasia after LASIK. J Cataract Refract Surg 2005 Nov;31(11):2035-2038.
  16. Screening for ectasia risk: what are we screening for and how should we screen for it? J Refract Surg 2013 Apr;29(4):230-232.
  17. Subclinical keratoconus detection in identical twins. Int J Keratoconus Ectatic Corneal Dis 2016 Jan-Apr;5(1):35-39.
  18. Keratoconus in 18 pairs of twins. Acta Ophthalmol 2012 Sep;90(6):e482-e486.
  19. KISA% index: a quantitative videokeratography algorithm embodying minimal topographic criteria for diagnosing keratoconus. J Cataract Refract Surg 1999 Oct;25(10):1327-1335.
  20. Unilateral keratoconus. Incidence and quantitative topographic analysis. Ophthalmology 1997 Sep;104(9):1409-1413.
  21. Ambrosio R Jr, Correia FF, Lopes B, Salomao MQ, Luz A, Dawson DG, Elsheikh A, Vinciguerra R, Vinciguerra P, Roberts CJ. Corneal biomechanics in ectatic diseases: refractive surgery implications. Open Ophthalmol J 2017 Jul;11:176-193.
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