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Journal Abstract Search

851 related items for PubMed ID: 24457362

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  • 6. Correlation of corneal elevation with severity of keratoconus by means of anterior and posterior topographic analysis.
    Ishii R, Kamiya K, Igarashi A, Shimizu K, Utsumi Y, Kumanomido T.
    Cornea; 2012 Mar; 31(3):253-8. PubMed ID: 22316650
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  • 8. Mapping corneal thickness using dual-scheimpflug imaging at different stages of keratoconus.
    Demir S, Ortak H, Yeter V, Alim S, Sayn O, Taş U, Sönmez B.
    Cornea; 2013 Nov; 32(11):1470-4. PubMed ID: 24071809
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  • 9. Intereye asymmetry detected by Scheimpflug imaging in subjects with normal corneas and keratoconus.
    Henriquez MA, Izquierdo L, Mannis MJ.
    Cornea; 2013 Jun; 32(6):779-82. PubMed ID: 23263222
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  • 10. Use of a support vector machine for keratoconus and subclinical keratoconus detection by topographic and tomographic data.
    Arbelaez MC, Versaci F, Vestri G, Barboni P, Savini G.
    Ophthalmology; 2012 Nov; 119(11):2231-8. PubMed ID: 22892148
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  • 12. Accuracy of machine learning classifiers using bilateral data from a Scheimpflug camera for identifying eyes with preclinical signs of keratoconus.
    Kovács I, Miháltz K, Kránitz K, Juhász É, Takács Á, Dienes L, Gergely R, Nagy ZZ.
    J Cataract Refract Surg; 2016 Feb; 42(2):275-83. PubMed ID: 27026453
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  • 15. A combination of topographic and pachymetric parameters in keratoconus diagnosis.
    Toprak I, Yaylalı V, Yildirim C.
    Cont Lens Anterior Eye; 2015 Oct; 38(5):357-62. PubMed ID: 25936634
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  • 18. Detection of subclinical keratoconus by using corneal anterior and posterior surface aberrations and thickness spatial profiles.
    Bühren J, Kook D, Yoon G, Kohnen T.
    Invest Ophthalmol Vis Sci; 2010 Jul; 51(7):3424-32. PubMed ID: 20164452
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