American Journal of Ophthalmology
Volume 139, Issue 1 , Pages 154-155 , January 2005

Artifacts in optical coherence tomography topographic maps

  • Michael R. Hee, MD PhD

      Affiliations

    • Pacific Eye Specialists, Dale City, California.
    • Corresponding Author InformationInquiries to Michael R. Hee, MD, Pacific Eye Specialists, 1850 Sullivan Avenue, Suite 540, Daly City, CA 94015; fax: 650-755-2107

,Accepted 25 August 2004.

References 

  1. Hee MR , Puliafito CA , Duker JS , et al.   Topography of diabetic macular edema with optical coherence tomography . Ophthalmology . 1998;105:360–370
  2. Ray R , Stinnett SS , Jaffe GJ . Evaluation of image artifact produced by optical coherence tomography of retinal pathology . Am J Ophthalmol . 2005;1:
  3. Grigera DE , Zambrano A , Cazon GP , Cavanagh E , Girado SG . Ultrasound biomicroscopy in silicone oil-filled eyes . Retina . 2000;20:524–531
  4. Ishikawa H , Inazumi K , Liebmann JM , Ritch R . Inadvertent corneal indentation can cause artifactitious widening of the iridocorneal angle on ultrasound biomicroscopy . Ophthalmic Surg Lasers . 2000;31:342–345
  5. Colen TP , Lemij HG . Motion artifacts in scanning laser polarimetry . Ophthalmology . 2002;109:1568–1572
  6. Pons ME , Rothman RF , Ozden RG , Liebmann JM , Ritch R . Vitreous opacities affect scanning laser polarimetry measurements . Am J Ophthalmol . 2001;131:511–513
  7. Kogure S , Chiba T , Kinoshita T , Kowa H , Tsukahara S . Effects of artefacts on scanning laser polarimetry of retinal nerve fibre layer thickness measurement . Br J Ophthalmol . 2000;84:1013–1017
  8. Hoh ST , Greenfield DS , Liebmann JM , et al.   Factors affecting image acquisition during scanning laser polarimetry . Ophthalmic Surg Lasers . 1998;29:545–551
  9. Cohen KL , Patel SB , Ray N . Retinal thickness measurement after phacoemulsification . J Cataract Refract Surg . 2004;30:1501–1506
  10. Nassif N , Cense B , Park BH , et al.   In vivo human retinal imaging by ultrahigh-speed spectral domain optical coherence tomography . Opt Lett . 2004;29:480–482
  11. Wojtkowski M , Srinivasan VJ , Ko TH , Fujimoto JG , Kowalczyk A , Duker JS . Ultrahigh-resolution, high-speed, Fourier domain optical coherence tomography and methods for dispersion compensation . Opt Express . 2004;12:2404–2422

PII: S0002-9394(04)01072-4

doi: 10.1016/j.ajo.2004.08.066

American Journal of Ophthalmology
Volume 139, Issue 1 , Pages 154-155 , January 2005

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