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Journal Abstract Search

170 related items for PubMed ID: 21467182

  • 1. Heartbeat-induced axial motion artifacts in optical coherence tomography measurements of the retina.
    de Kinkelder R, Kalkman J, Faber DJ, Schraa O, Kok PH, Verbraak FD, van Leeuwen TG.
    Invest Ophthalmol Vis Sci; 2011 Jun 01; 52(6):3908-13. PubMed ID: 21467182
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  • 3. Measurement of ocular fundus pulsation in healthy subjects using a novel Fourier-domain optical coherence tomography.
    Singh K, Dion C, Wajszilber M, Ozaki T, Lesk MR, Costantino S.
    Invest Ophthalmol Vis Sci; 2011 Nov 21; 52(12):8927-32. PubMed ID: 21969303
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  • 7. Phase-contrast OCT imaging of transverse flows in the mouse retina and choroid.
    Fingler J, Readhead C, Schwartz DM, Fraser SE.
    Invest Ophthalmol Vis Sci; 2008 Nov 21; 49(11):5055-9. PubMed ID: 18566457
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  • 8. Determinants of perimacular inner retinal layer thickness in normal eyes measured by Fourier-domain optical coherence tomography.
    Kim NR, Kim JH, Lee J, Lee ES, Seong GJ, Kim CY.
    Invest Ophthalmol Vis Sci; 2011 May 18; 52(6):3413-8. PubMed ID: 21357406
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  • 9. Motion artifact suppression in full-field optical coherence tomography.
    Sacchet D, Brzezinski M, Moreau J, Georges P, Dubois A.
    Appl Opt; 2010 Mar 20; 49(9):1480-8. PubMed ID: 20300141
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  • 10. Slit-lamp-adapted fourier-domain OCT for anterior and posterior segments: preliminary results and comparison to time-domain OCT.
    Mueller M, Schulz-Wackerbarth C, Steven P, Lankenau E, Bonin T, Mueller H, Brueggemann A, Birngruber R, Grisanti S, Huettmann G.
    Curr Eye Res; 2010 Aug 20; 35(8):722-32. PubMed ID: 20673049
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  • 11. Biometric measurement of the mouse eye using optical coherence tomography with focal plane advancement.
    Zhou X, Xie J, Shen M, Wang J, Jiang L, Qu J, Lu F.
    Vision Res; 2008 Apr 20; 48(9):1137-43. PubMed ID: 18346775
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  • 12. Alignment artifacts in optical coherence tomography analyzed images.
    Leung CK, Chan WM, Chong KK, Chan KC, Yung WH, Tsang MK, Tse RK, Lam DS.
    Ophthalmology; 2007 Feb 20; 114(2):263-70. PubMed ID: 17123619
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  • 13. Comparison of manually corrected retinal thickness measurements from multiple spectral-domain optical coherence tomography instruments.
    Heussen FM, Ouyang Y, McDonnell EC, Narala R, Ruiz-Garcia H, Walsh AC, Sadda SR.
    Br J Ophthalmol; 2012 Mar 20; 96(3):380-5. PubMed ID: 21733920
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  • 15. Ultrahigh speed spectral / Fourier domain OCT ophthalmic imaging at 70,000 to 312,500 axial scans per second.
    Potsaid B, Gorczynska I, Srinivasan VJ, Chen Y, Jiang J, Cable A, Fujimoto JG.
    Opt Express; 2008 Sep 15; 16(19):15149-69. PubMed ID: 18795054
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  • 16. In vivo three-dimensional high-resolution imaging of rodent retina with spectral-domain optical coherence tomography.
    Ruggeri M, Wehbe H, Jiao S, Gregori G, Jockovich ME, Hackam A, Duan Y, Puliafito CA.
    Invest Ophthalmol Vis Sci; 2007 Apr 15; 48(4):1808-14. PubMed ID: 17389515
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  • 17. Evaluation of image artifact produced by optical coherence tomography of retinal pathology.
    Ray R, Stinnett SS, Jaffe GJ.
    Am J Ophthalmol; 2005 Jan 15; 139(1):18-29. PubMed ID: 15652824
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  • 18. Macular thickness variations with sex, age, and axial length in healthy subjects: a spectral domain-optical coherence tomography study.
    Song WK, Lee SC, Lee ES, Kim CY, Kim SS.
    Invest Ophthalmol Vis Sci; 2010 Aug 15; 51(8):3913-8. PubMed ID: 20357206
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  • 19. Efficient reduction of speckle noise in Optical Coherence Tomography.
    Szkulmowski M, Gorczynska I, Szlag D, Sylwestrzak M, Kowalczyk A, Wojtkowski M.
    Opt Express; 2012 Jan 16; 20(2):1337-59. PubMed ID: 22274479
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  • 20. Macular choroidal thickness and volume in normal subjects measured by swept-source optical coherence tomography.
    Hirata M, Tsujikawa A, Matsumoto A, Hangai M, Ooto S, Yamashiro K, Akiba M, Yoshimura N.
    Invest Ophthalmol Vis Sci; 2011 Jul 01; 52(8):4971-8. PubMed ID: 21622704
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