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Journal Abstract Search

317 related items for PubMed ID: 29117418

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  • 4. Diagnostic Ability of Corneal Shape and Biomechanical Parameters for Detecting Frank Keratoconus.
    Sedaghat MR, Momeni-Moghaddam H, Ambrósio R, Heidari HR, Maddah N, Danesh Z, Sabzi F.
    Cornea; 2018 Aug; 37(8):1025-1034. PubMed ID: 29847493
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  • 5. Integration of Scheimpflug-Based Corneal Tomography and Biomechanical Assessments for Enhancing Ectasia Detection.
    Ambrósio R, Lopes BT, Faria-Correia F, Salomão MQ, Bühren J, Roberts CJ, Elsheikh A, Vinciguerra R, Vinciguerra P.
    J Refract Surg; 2017 Jul 01; 33(7):434-443. PubMed ID: 28681902
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  • 6. Tomographic and Biomechanical Scheimpflug Imaging for Keratoconus Characterization: A Validation of Current Indices.
    Steinberg J, Siebert M, Katz T, Frings A, Mehlan J, Druchkiv V, Bühren J, Linke SJ.
    J Refract Surg; 2018 Dec 01; 34(12):840-847. PubMed ID: 30540367
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  • 7. Detection of Keratoconus With a New Biomechanical Index.
    Vinciguerra R, Ambrósio R, Elsheikh A, Roberts CJ, Lopes B, Morenghi E, Azzolini C, Vinciguerra P.
    J Refract Surg; 2016 Dec 01; 32(12):803-810. PubMed ID: 27930790
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  • 9. Comparison of Corneal Deformation Parameters in Keratoconic and Normal Eyes Using a Non-contact Tonometer With a Dynamic Ultra-High-Speed Scheimpflug Camera.
    Mercer RN, Waring GO, Roberts CJ, Jhanji V, Wang Y, Filho JS, Hemings RA, Rocha KM.
    J Refract Surg; 2017 Sep 01; 33(9):625-631. PubMed ID: 28880338
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  • 10. Biomechanical assessment of healthy and keratoconic corneas (with/without crosslinking) using dynamic ultrahigh-speed Scheimpflug technology and the relevance of the parameter (A1L-A2L).
    Fuchsluger TA, Brettl S, Geerling G, Kaisers W, Franko Zeitz P.
    Br J Ophthalmol; 2019 Apr 01; 103(4):558-564. PubMed ID: 29871966
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  • 13. Introduction of Two Novel Stiffness Parameters and Interpretation of Air Puff-Induced Biomechanical Deformation Parameters With a Dynamic Scheimpflug Analyzer.
    Roberts CJ, Mahmoud AM, Bons JP, Hossain A, Elsheikh A, Vinciguerra R, Vinciguerra P, Ambrósio R.
    J Refract Surg; 2017 Apr 01; 33(4):266-273. PubMed ID: 28407167
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  • 14. Evaluation of Corneal Biomechanical Indices in Distinguishing Between Normal, Very Asymmetric, and Bilateral Keratoconic Eyes.
    Herber R, Hasanli A, Lenk J, Vinciguerra R, Terai N, Pillunat LE, Raiskup F.
    J Refract Surg; 2022 Jun 01; 38(6):364-372. PubMed ID: 35686712
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  • 17. New Scheimpflug Dynamic In Vivo Curve Analyses to Characterize Biomechanical Changes of the Cornea After Cross-linking for Progressive Keratoconus.
    Steinberg J, Frings A, Mousli A, Casagrande MK, Druchkiv V, Katz T, Linke SJ.
    J Refract Surg; 2016 Jan 01; 32(1):34-9. PubMed ID: 26812712
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  • 18. Long-term Evaluation of Corneal Biomechanical Properties After Corneal Cross-linking for Keratoconus: A 4-Year Longitudinal Study.
    Sedaghat MR, Momeni-Moghaddam H, Ambrósio R, Roberts CJ, Yekta AA, Danesh Z, Reisdorf S, Khabazkhoob M, Heidari HR, Sadeghi J.
    J Refract Surg; 2018 Dec 01; 34(12):849-856. PubMed ID: 30540368
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  • 20. Comparative evaluation of Scheimpflug tomography parameters between thin non-keratoconic, subclinical keratoconic, and mild keratoconic corneas.
    Huseynli S, Salgado-Borges J, Alio JL.
    Eur J Ophthalmol; 2018 Sep 01; 28(5):521-534. PubMed ID: 29566542
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