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722 related items for PubMed ID: 27026454

  • 21. Distinguishing Highly Asymmetric Keratoconus Eyes Using Combined Scheimpflug and Spectral-Domain OCT Analysis.
    Hwang ES, Perez-Straziota CE, Kim SW, Santhiago MR, Randleman JB.
    Ophthalmology; 2018 Dec; 125(12):1862-1871. PubMed ID: 30055838
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  • 22. Corneal ectasia detection by epithelial pattern standard deviation from OCT.
    Salomão MQ, Hofling-Lima AL, Gomes Esporcatte LP, Correa FF, Meneses EF, Li Y, Huang D, Lopes B, Sena N, Machado AP, Ambrósio R.
    J Cataract Refract Surg; 2023 Feb 01; 49(2):190-194. PubMed ID: 36201664
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  • 23. Evaluation of corneal epithelial and stromal thickness in keratoconus using spectral-domain optical coherence tomography.
    Maeda N, Nakagawa T, Higashiura R, Fuchihata M, Koh S, Nishida K.
    Jpn J Ophthalmol; 2014 Sep 01; 58(5):389-95. PubMed ID: 25012095
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  • 24. Early identification of keratoconus using pachymetric indexes obtained with spectral domain optical coherence tomography.
    Scuderi L, Anselmi G, Greco A, Abdolrahimzadeh B, Costa MC, Scuderi G.
    Clin Ter; 2021 Jul 05; 172(4):347-357. PubMed ID: 34247218
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  • 25. Validation of metrics for the detection of subclinical keratoconus in a new patient collective.
    Bühren J, Schäffeler T, Kohnen T.
    J Cataract Refract Surg; 2014 Feb 05; 40(2):259-68. PubMed ID: 24360499
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  • 26. Corneal Vertical and Horizontal Thickness Profiles Generated by UHR-OCT for Suspected and Subclinical Keratoconus Diagnosis.
    Hu L, Li Y, Liu Q, Xu Z, Gu J, Li A, Wang Y, Lin K, Xia J, Chen S, Lu F.
    J Refract Surg; 2021 Jul 05; 37(7):438-445. PubMed ID: 34236909
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  • 27. Corneal layer thickness in keratoconus using optical coherence tomography.
    Heidari Z, Mohammadpour M, Hajizadeh F, Fotouhi A, Hashemi H.
    Clin Exp Optom; 2024 Jan 05; 107(1):32-39. PubMed ID: 37121670
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  • 28. Comparison of very-high-frequency ultrasound and spectral-domain optical coherence tomography corneal and epithelial thickness maps.
    Urs R, Lloyd HO, Reinstein DZ, Silverman RH.
    J Cataract Refract Surg; 2016 Jan 05; 42(1):95-101. PubMed ID: 26948783
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  • 29. Epithelial remodeling after partial topography-guided normalization and high-fluence short-duration crosslinking (Athens protocol): results up to 1 year.
    Kanellopoulos AJ, Asimellis G.
    J Cataract Refract Surg; 2014 Oct 05; 40(10):1597-602. PubMed ID: 25176050
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  • 30. Epithelial and stromal remodeling after corneal collagen cross-linking evaluated by spectral-domain OCT.
    Rocha KM, Perez-Straziota CE, Stulting RD, Randleman JB.
    J Refract Surg; 2014 Feb 05; 30(2):122-7. PubMed ID: 24763478
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  • 31. Large Field of View Corneal Epithelium and Bowman's Layer Thickness Maps in Keratoconic and Healthy Eyes.
    Pircher N, Beer F, Holzer S, Gschließer A, Donner R, Pircher M, Hitzenberger CK, Schmidinger G, Lammer J.
    Am J Ophthalmol; 2020 Jan 05; 209():168-177. PubMed ID: 31170392
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  • 32. Corneal and epithelial thickness in keratoconus: a comparison of ultrasonic pachymetry, Orbscan II, and optical coherence tomography.
    Haque S, Simpson T, Jones L.
    J Refract Surg; 2006 May 05; 22(5):486-93. PubMed ID: 16722488
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  • 33. Screening for Subclinical Keratoconus Using Swept-Source Fourier Domain Anterior Segment Optical Coherence Tomography.
    Steinberg J, Casagrande MK, Frings A, Katz T, Druchkiv V, Richard G, Linke SJ.
    Cornea; 2015 Nov 05; 34(11):1413-9. PubMed ID: 26312618
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  • 34. Evaluation of corneal topography, pachymetry and higher order aberrations for detecting subclinical keratoconus.
    Kandel S, Chaudhary M, Mishra SK, Joshi ND, Subedi M, Puri PR, Gyawali P, Bist J, Kandel H.
    Ophthalmic Physiol Opt; 2022 May 05; 42(3):594-608. PubMed ID: 35147226
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  • 35. Pellucid marginal degeneration versus keratoconus: distinction with wide-field SD-OCT corneal sublayer pachymetry.
    Mohr N, Shajari M, Krause D, Kassumeh S, Siedlecki J, Priglinger SG, Mayer WJ, Luft N.
    Br J Ophthalmol; 2021 Dec 05; 105(12):1638-1644. PubMed ID: 33055086
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  • 36. 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 05; 51(7):3424-32. PubMed ID: 20164452
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  • 37. Corneal topographic analysis in patients with keratoconus using 3-dimensional anterior segment optical coherence tomography.
    Nakagawa T, Maeda N, Higashiura R, Hori Y, Inoue T, Nishida K.
    J Cataract Refract Surg; 2011 Oct 05; 37(10):1871-8. PubMed ID: 21930048
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  • 38. Semiautomated SD-OCT Measurements of Corneal Sublayer Thickness in Normal and Post-SMILE Eyes.
    Luft N, Ring MH, Dirisamer M, Mursch-Edlmayr AS, Pretzl J, Bolz M, Priglinger SG.
    Cornea; 2016 Jul 05; 35(7):972-9. PubMed ID: 27027916
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  • 39. Corneal Epithelial Thickness Intrasubject Repeatability and its Relation With Visual Limitation in Keratoconus.
    Vega-Estrada A, Mimouni M, Espla E, Alió Del Barrio J, Alio JL.
    Am J Ophthalmol; 2019 Apr 05; 200():255-262. PubMed ID: 30689987
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  • 40. Repeatability and agreement of total corneal and sublayer pachymetry with 2 different algorithms of Fourier-domain optical coherence tomography in myopic and postphotorefractive keratectomy eyes.
    Latifi G, Mohammadi SS.
    J Cataract Refract Surg; 2020 Dec 05; 46(12):1644-1651. PubMed ID: 33259389
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