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Journal Abstract Search

122 related items for PubMed ID: 38346468

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  • 3. Quantitative Analysis of Microvasculature in Macular and Peripapillary Regions in Early Primary Open-Angle Glaucoma.
    Lu P, Xiao H, Liang C, Xu Y, Ye D, Huang J.
    Curr Eye Res; 2020 May; 45(5):629-635. PubMed ID: 31587582
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  • 4. Identifying Peripapillary Radial Capillary Plexus Alterations in Parkinson's Disease Using OCT Angiography.
    Robbins CB, Grewal DS, Thompson AC, Soundararajan S, Yoon SP, Polascik BW, Scott BL, Fekrat S.
    Ophthalmol Retina; 2022 Jan; 6(1):29-36. PubMed ID: 33713852
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  • 7. Diagnostic ability of the combination of retinal microvasculature evaluation and static automated perimetry for early primary open-angle glaucoma.
    Xu S, Lin Z, Guo Y, Huang P, Huang S, Zhong Y.
    Lasers Med Sci; 2024 Jun 11; 39(1):154. PubMed ID: 38862806
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  • 8. Humphrey matrix frequency doubling technology perimetry and optical coherence tomography measurement of the retinal nerve fiber layer thickness in both normal and ocular hypertensive subjects.
    Mastropasqua L, Brusini P, Carpineto P, Ciancaglini M, Di Antonio L, Zeppieri MW, Parisi L.
    J Glaucoma; 2006 Aug 11; 15(4):328-35. PubMed ID: 16865011
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  • 9. Optical Coherence Tomography Angiography of Optic Disc in Eyes With Primary Open-angle Glaucoma and Normal-tension Glaucoma.
    Toshev AP, Schuster AK, Ul Hassan SN, Pfeiffer N, Hoffmann EM.
    J Glaucoma; 2019 Mar 11; 28(3):243-251. PubMed ID: 30624391
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  • 11. Development of Topographic Scoring System for Identifying Glaucoma in Myopic Eyes: A Spectral-Domain OCT Study.
    Baek SU, Kim KE, Kim YK, Park KH, Jeoung JW.
    Ophthalmology; 2018 Nov 11; 125(11):1710-1719. PubMed ID: 29887333
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  • 13. Use of optical coherence tomography angiography for assessment of microvascular changes in the macula and optic nerve head in hypertensive patients without hypertensive retinopathy.
    Hua D, Xu Y, Zeng X, Yang N, Jiang M, Zhang X, Yang J, He T, Xing Y.
    Microvasc Res; 2020 May 11; 129():103969. PubMed ID: 31874131
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  • 14. Ganglion cell-inner plexiform layer and retinal nerve fiber layer thickness according to myopia and optic disc area: a quantitative and three-dimensional analysis.
    Seo S, Lee CE, Jeong JH, Park KH, Kim DM, Jeoung JW.
    BMC Ophthalmol; 2017 Mar 11; 17(1):22. PubMed ID: 28283025
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  • 15. [The function-structure impairment pattern of optic nerves in primary open-angle glaucoma and normal-tension glaucoma].
    Wang XM, Sun XH, Dai Y, Kong XM, Chen YH.
    Zhonghua Yan Ke Za Zhi; 2018 Nov 11; 54(11):811-819. PubMed ID: 30440151
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  • 17. Peripapillary and Macular Microcirculation in Glaucoma Patients of African and European Descent Using Optical Coherence Tomography Angiography.
    Taylor L, Bojikian KD, Jung H, Chu Z, Zhou X, Zhang Q, Mudumbai RC, Waang RK, Chen PP.
    J Glaucoma; 2020 Oct 11; 29(10):885-889. PubMed ID: 32769732
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  • 19. Parafoveal and optic disc vessel density in patients with obstructive sleep apnea syndrome: an optical coherence tomography angiography study.
    Moyal L, Blumen-Ohana E, Blumen M, Blatrix C, Chabolle F, Nordmann JP.
    Graefes Arch Clin Exp Ophthalmol; 2018 Jul 11; 256(7):1235-1243. PubMed ID: 29577172
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  • 20. Diagnostic ability of retinal ganglion cell complex, retinal nerve fiber layer, and optic nerve head measurements by Fourier-domain optical coherence tomography.
    Schulze A, Lamparter J, Pfeiffer N, Berisha F, Schmidtmann I, Hoffmann EM.
    Graefes Arch Clin Exp Ophthalmol; 2011 Jul 11; 249(7):1039-45. PubMed ID: 21240522
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