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Journal Abstract Search

322 related items for PubMed ID: 29570721

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  • 24. Can Glaucomatous Visual Field Progression be Predicted by Structural and Functional Measures?
    Schrems WA, Schrems-Hoesl LM, Mardin CY, Laemmer R, Kruse FE, Horn FK.
    J Glaucoma; 2017 Apr; 26(4):373-382. PubMed ID: 28118204
    [Abstract] [Full Text] [Related]

  • 25. Structure-function relationships between spectral-domain OCT and standard achromatic perimetry.
    Nilforushan N, Nassiri N, Moghimi S, Law SK, Giaconi J, Coleman AL, Caprioli J, Nouri-Mahdavi K.
    Invest Ophthalmol Vis Sci; 2012 May 09; 53(6):2740-8. PubMed ID: 22447869
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  • 28. Glaucoma diagnostic capabilities of optic nerve head parameters as determined by Cirrus HD optical coherence tomography.
    Sung KR, Na JH, Lee Y.
    J Glaucoma; 2012 Sep 09; 21(7):498-504. PubMed ID: 21637115
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  • 29. Comparison of optic nerve head topography and visual field in eyes with open-angle and angle-closure glaucoma.
    Boland MV, Zhang L, Broman AT, Jampel HD, Quigley HA.
    Ophthalmology; 2008 Feb 09; 115(2):239-245.e2. PubMed ID: 18082888
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  • 30. Detection of macular ganglion cell loss in preperimetric glaucoma patients with localized retinal nerve fibre defects by spectral-domain optical coherence tomography.
    Na JH, Lee K, Lee JR, Baek S, Yoo SJ, Kook MS.
    Clin Exp Ophthalmol; 2013 Dec 09; 41(9):870-80. PubMed ID: 23777476
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  • 31. A comparison of rates of change in neuroretinal rim area and retinal nerve fiber layer thickness in progressive glaucoma.
    Alencar LM, Zangwill LM, Weinreb RN, Bowd C, Sample PA, Girkin CA, Liebmann JM, Medeiros FA.
    Invest Ophthalmol Vis Sci; 2010 Jul 09; 51(7):3531-9. PubMed ID: 20207973
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  • 32. Application of optical coherence tomography in glaucoma suspect eyes.
    Pomorska M, Krzyżanowska-Berkowska P, Misiuk-Hojło M, Zając-Pytrus H, Grzybowski A.
    Clin Exp Optom; 2012 Jan 09; 95(1):78-88. PubMed ID: 21981362
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  • 33. Variations in optic nerve head morphology by intraocular pressure in open-angle glaucoma.
    Wong A, Matheos K, Prime Z, Danesh-Meyer HV.
    Graefes Arch Clin Exp Ophthalmol; 2017 Nov 09; 255(11):2219-2226. PubMed ID: 28875349
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  • 34. Correlation of structural retinal nerve fibre layer parameters and functional measures using Heidelberg Retinal Tomography and Spectralis spectral domain optical coherence tomography at different levels of glaucoma severity.
    Leaney J, Healey PR, Lee M, Graham SL.
    Clin Exp Ophthalmol; 2012 Nov 09; 40(8):802-12. PubMed ID: 22594488
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  • 35. Evaluation of the Macular Ganglion Cell-Inner Plexiform Layer and the Circumpapillary Retinal Nerve Fiber Layer in Early to Severe Stages of Glaucoma: Correlation with Central Visual Function and Visual Field Indexes.
    Bambo MP, Güerri N, Ferrandez B, Cameo B, Fuertes I, Polo V, Garcia-Martin E.
    Ophthalmic Res; 2017 Nov 09; 57(4):216-223. PubMed ID: 28068662
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  • 36. Diagnostic ability of retinal nerve fiber layer imaging by swept-source optical coherence tomography in glaucoma.
    Yang Z, Tatham AJ, Zangwill LM, Weinreb RN, Zhang C, Medeiros FA.
    Am J Ophthalmol; 2015 Jan 09; 159(1):193-201. PubMed ID: 25448991
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  • 37. Usefulness of optical coherence tomography parameters of the optic disc and the retinal nerve fiber layer to differentiate glaucomatous, ocular hypertensive, and normal eyes.
    Anton A, Moreno-Montañes J, Blázquez F, Alvarez A, Martín B, Molina B.
    J Glaucoma; 2007 Jan 09; 16(1):1-8. PubMed ID: 17224742
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  • 39. Enhancing Structure-Function Correlations in Glaucoma with Customized Spatial Mapping.
    Ballae Ganeshrao S, Turpin A, Denniss J, McKendrick AM.
    Ophthalmology; 2015 Aug 09; 122(8):1695-705. PubMed ID: 26077579
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