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Ulitina A.Yu., Izmaylov A.S. ESTIMATION OF HOROID THICKNESS AT AGE-RELATED MACULAR DEGENERATION To examine horoidal thickness in eyes with age-related macular degeneration (AMD) using enhanced-depth imagine optical coherence tomography. Subfoveal choroidal thickness of eyes with early and exudative AMD was thinner than that of age-matched normal subjects. There was no significant difference in choroidal thickness between groups with early and exudative AMD.Key words: horoid, optical coherence tomography, EDI-OCT, age-related macular degeneration.
References:
1. Fujiwara T., Imamura Y., Margolis R., Slakter J.S., et al. Enhanced depth imaging optical coherence tomography of the choroid in highly myopic eyes// Am J Ophthalmol. — 2009. -V.148, №3. — P. 445-450.
2. Hee M.R., Izatt J.A., Swanson E.A., Huang D., et al. Optical coherence tomography of the human retina// Arch Ophthalmol. — 1995. -V.113, №3. — P. 325-332.
3. Huang D., Swanson E.A., Lin C.P., Schuman J.S., et al. Optical coherence tomography// Science. — 1991. -V.254, №5035. — P. 1178-1181.
4. Imamura Y., Fujiwara T., Margolis R. and Spaide R.F. Enhanced depth imaging optical coherence tomography of the choroid in central serous chorioretinopathy// Retina. — 2009. -V.29, №10. — P. 1469-1473.
5. Kim S.W., Oh J., Kwon S.S., Yoo J., et al. Comparison of choroidal thickness among patients with healthy eyes, early age-related maculopathy, neovascular age-related macular degeneration, central serous chorioretinopathy, and polypoidal choroidal vasculopathy// Retina. — 2011. — V.31, №9. — P. 1904-1911.
6. Manjunath V., Fujimoto J.G. and Duker J.S. Cirrus HD-OCT high definition imaging is another tool available for visualization of the choroid and provides agreement with the finding that the choroidal thickness is increased in central serous chorioretinopathy in comparison to normal eyes// Retina. — 2010. — V.30, №8. — P. 1320-1321; author reply 1321-1322.
7. Manjunath V., Taha M., Fujimoto J.G. and Duker J.S. Choroidal thickness in normal eyes measured using Cirrus HD optical coherence tomography// Am J Ophthalmol. — 2010. — V.150, №3. — P. 325-329.
8. Margolis R., Spaide R.F. A pilot study of enhanced depth imaging optical coherence tomography of the choroid in normal eyes// Am J Ophthalmol. — 2009. — V.147, №5. — P. 811-815.
9. Maruko I., Iida T., Sugano Y., Ojima A., et al. Subfoveal choroidal thickness after treatment of central serous chorioretinopathy// Ophthalmology. — 2010. — V.117, №9. — P. 1792-1799.
10. McCourt E.A., Cadena B.C., Barnett C.J., Ciardella A.P., et al. Measurement of subfoveal choroidal thickness using spectral domain optical coherence tomography// Ophthalmic Surg Lasers Imaging. — 2010. — V.41, №– P. 28-33.
11. Puliafito C.A., Hee M.R., Lin C.P., Reichel E., et al. Imaging of macular diseases with optical coherence tomography// Ophthalmology. — 1995. — V.102, №2. — P. 217-229.
12. Spaide R.F., Koizumi H. and Pozzoni M.C. Enhanced depth imaging spectral-domain optical coherence tomography// Am J Ophthalmol. — 2008. — V.146, №4. — P. 496-500.
13. Switzer D.W., Jr., Mendonca L.S., Saito M., Zweifel S.A., et al. Segregation of ophthalmoscopic characteristics according to choroidal thickness in patients with early age-related macular degeneration// Retina. — 2012. — V.32, №7. — P. 1265-1271.
14. Wong I.Y., Koizumi H., Lai W.W. Enhanced depth imaging optical coherence tomography// Ophthalmic Surg Lasers Imaging. — 2011. — V.42. — P. 75-84.
15. Yeoh J., Rahman W., Chen F., Hooper C., et al. Choroidal imaging in inherited retinal disease using the technique of enhanced depth imaging optical coherence tomography// Graefes Arch Clin Exp Ophthalmol. — 2010. — V. 248, №12. — P. 1719-1728.
About this article
Authors: Ulitina A.Yu., Izmaylov A.S.
Year: 2013
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Editor-in-chief |
Sergey Aleksandrovich MIROSHNIKOV |
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