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Journal Abstract Search

419 related items for PubMed ID: 25676065

  • 1. In vivo evaluation of the cornea and conjunctiva of the normal laboratory beagle using time- and Fourier-domain optical coherence tomography and ultrasound pachymetry.
    Strom AR, Cortés DE, Rasmussen CA, Thomasy SM, McIntyre K, Lee SF, Kass PH, Mannis MJ, Murphy CJ.
    Vet Ophthalmol; 2016 Jan; 19(1):50-6. PubMed ID: 25676065
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  • 2. Comparison of ultrasonic pachymetry and Fourier-domain optical coherence tomography for measurement of corneal thickness in dogs with and without corneal disease.
    Hoehn AL, Thomasy SM, Kass PH, Horikawa T, Samuel M, Shull OR, Stewart KA, Murphy CJ.
    Vet J; 2018 Dec; 242():59-66. PubMed ID: 30503546
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  • 3. Canine central corneal thickness measurements via Pentacam-HR® , optical coherence tomography (Optovue iVue® ), and high-resolution ultrasound biomicroscopy.
    Wolfel AE, Pederson SL, Cleymaet AM, Hess AM, Freeman KS.
    Vet Ophthalmol; 2018 Jul; 21(4):362-370. PubMed ID: 29034562
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  • 4. Comparative study of central corneal thickness using Fourier-domain optical coherence tomography versus ultrasound pachymetry in primary open-angle glaucoma.
    Garcia-Medina JJ, Garcia-Medina M, Garcia-Maturana C, Zanon-Moreno V, Pons-Vazquez S, Pinazo-Duran MD.
    Cornea; 2013 Jan; 32(1):9-13. PubMed ID: 22495027
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  • 8. Superficial Keratectomy and Conjunctival Advancement Hood Flap (SKCAHF) for the Management of Bullous Keratopathy: Validation in Dogs With Spontaneous Disease.
    Horikawa T, Thomasy SM, Stanley AA, Calderon AS, Li J, Linton LL, Murphy CJ.
    Cornea; 2016 Oct; 35(10):1295-304. PubMed ID: 27538190
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  • 11. Comparison of fourier-domain and time-domain optical coherence tomography for assessment of corneal thickness and intersession repeatability.
    Prakash G, Agarwal A, Jacob S, Kumar DA, Agarwal A, Banerjee R.
    Am J Ophthalmol; 2009 Aug; 148(2):282-290.e2. PubMed ID: 19442961
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  • 12. Comparison of central corneal thickness measurements using optical low-coherence reflectometry, Fourier domain optical coherence tomography, and Scheimpflug camera.
    Gonul S, Koktekir BE, Bakbak B, Gedik S.
    Arq Bras Oftalmol; 2014 Aug; 77(6):345-50. PubMed ID: 25627178
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  • 13. Comparison of Central Corneal Thickness Measurements Using Ultrasonic Pachymetry, Anterior Segment OCT and Noncontact Specular Microscopy.
    Scotto R, Bagnis A, Papadia M, Cutolo CA, Risso D, Traverso CE.
    J Glaucoma; 2017 Oct; 26(10):860-865. PubMed ID: 28834824
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  • 14. Central corneal thickness measurements obtained with anterior segment spectral domain optical coherence tomography compared to ultrasound pachymetry in healthy subjects.
    Vollmer L, Sowka J, Pizzimenti J, Yu X.
    Optometry; 2012 May 31; 83(5):167-72. PubMed ID: 23249119
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  • 16. Comparison of Central Corneal Thickness with Ultrasound Pachymetry, Noncontact Specular Microscopy and Spectral Domain Optical Coherence Tomography.
    Erdur SK, Demirci G, Dikkaya F, Kocabora MS, Ozsutcu M.
    Semin Ophthalmol; 2018 May 31; 33(6):782-787. PubMed ID: 29509052
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  • 19. Corneal thickness in keratoconus: comparing optical, ultrasound, and optical coherence tomography pachymetry.
    Dutta D, Rao HL, Addepalli UK, Vaddavalli PK.
    Ophthalmology; 2013 Mar 31; 120(3):457-463. PubMed ID: 23177363
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  • 20. A spectral-domain optical coherence tomography device provides reliable corneal pachymetry measurements in canine eyes.
    Alario AF, Pirie CG.
    Vet Rec; 2013 Jun 08; 172(23):605. PubMed ID: 23716535
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