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• W2080631500 abstract "cornea is covered by a thin tear film that performs various vital functions including the provision of a high quality optical surface and protecting the cornea. Clinical methods for assessing tear film surface quality are mostly invasive and often unreliable. Recently, several non-invasive methods have been proposed. In this letter, we review three promising optical techniques based on high speed wavefront sensing and lateral shearing interferometry, and evaluate their clinical utility. Full text: PDF References: N.L. Himebaugh, L.N. Thibos, A. Bradley, G. Wilson, C.G. Begley, Predicting optical effects of tear film break up on retinal image quality using the Shack-Hartmann aberrometer and computational optical modeling, Adv. Exp. Med. Biol. 506(Pt B), 1141 (2002). R. Montes-Mico, Role of the tear film in the optical quality of the human eye, J. Cataract. Refract. Surg. 33, 1631 (2007). [CrossRef] R. Tutt, A. Bradley, C. Begley, L.N. Thibos, and visual impact of tear break-up in human eyes, Invest. Ophthalmol. Vis. Sci. 41, 4117 (2000). M.A. Lemp, Report of the National Eye Institute/Industry workshop on Clinical Trials in Dry Eyes, CLAO Journal 21, 221 (1995). L.S. Mengher, K.S. Pandher, A.J. Bron, Non-invasive tear film break-uptime: sensitivity and specificity, Acta Ophthalmol. 64, 441 (1986). [CrossRef] K.K. Nichols, G.L. Mitchell, K. Zadnik, Cornea 23:272 (2004). [CrossRef] J. Nemeth, B. Erdelyi, B. Csakany, P. Gaspar, A. Soumelidis, F. Kahlesz, Z. Lang, High-speed videotopographic measurement of tear film build-up time, Invest. Ophthalmol. Vis. Sci. 43, 1783 (2003). T. Goto, X. Zheng, S.D. Klyce, H. Kataoka, T. Uno, M. Yamaguchi et al., Evaluation of the tear film stability after laser in situ keratomileusis using the tear film stability analysis system, Am. J. Ophthalmol. 137, 116 (2004). [CrossRef] D.R. Iskander, M. J. Collins, B. Davis, Evaluating tear film stability in the human eye with high-speed videokeratoscopy, IEEE Trans. Biomed. Eng. 52, 1939 (2005). [CrossRef] D.R. Iskander, M.J. Collins, Applications of high-speed videokeratoscopy, Clinic. Exp. Optometry 88, 223 (2005). [CrossRef] D. Alonso-Caneiro, D.R. Iskander, M.J. Collins, Assessment of Tear Film Surface Quality Using Dynamic-Area High-Speed Videokeratoscopy, IEEE Trans. Biomed. Eng. 56, 1473 (2009). [CrossRef] H. Hofer, P. Artal, B. Singer, J.L. Aragon, D.R. Williams, Dynamics of the eye’s wave aberration, J. Opt. Soc. Am. A 18, 497 (2001). [CrossRef] D.R. Iskander, M.J. Collins, M.R. Morelande, M. Zhu, Analyzing the dynamic wavefront aberrations in the human eye, IEEE Trans. Biomed. Eng. 51, 1969 (2004). [CrossRef] A. Dubra, C. Paterson, Wave-front reconstruction from shear phase maps by use of the discrete Fourier transform, C. Dainty. Appl. Opt. 43, 1108 (2004). [CrossRef] A. Dubra, C. Paterson, Double lateral shearing interferometer for the quantitative measurement of tear film topography, C. Dainty. Appl. Opt. 44, 1191 (2005). [CrossRef] P.E. King-Smith, B.A. Fink, JJ. Nichols, K.K. Nichols, R.M. Hill, Interferometric imaging of the full thickness of the precorneal tear film, J. Opt. Soc. Am. A 23, 2097 (2006). [CrossRef] D.H. Szczesna, H.T. Kasprzak, J. Jaronski, D.A. Rydz, U. Stenevi, An interferometric method for the dynamic evaluation of the tear film, Acta Ophthalmol. Scand. 85, 202 (2007). [CrossRef] D.H. Szczesna, H.T. Kasprzak, Numerical analysis of interferograms for evaluation of tear film build-up time, Ophthalmic Physiol. Opt. 29, 211 (2009). [CrossRef] H. Liu, L.N. Thibos, C.G. Begley, A. Bradley, of the Time Course of Optical Quality and Visual Deterioration during Tear Break-Up, Invest. Ophthalmol. Vis. Sci. 51, 3318 (2010). [CrossRef] T.J. Licznerski, H.T. Kasprzak, W. Kowalik, Analysis of Shearing Interferograms of Tear Film Using Fast Fourier Transforms, J. Bio. Opt. 3, 32, (1998). D.H. Szczesna, J. Jaronski, H.T. Kasprzak, U. Stenevi, Interferometric measurements of dynamic changes of tear film, J. Bio. Opt. 11, 034028, (2006). M. Zhu, M.J. Collins, D.R. Iskander, The contribution of accommodation and the ocular surface to the microfluctuations of wavefront aberrations of the eye, Ophthalmic Physiol. Opt. 26, 439 (2006). [CrossRef] D.H. Szczesna, D.R. Iskander, J. Bio. Opt. 14, 064039 (2009). J. Schwiegerling, Scaling Zernike expansion coefficients to different pupil sizes, J. Opt. Soc. Am. A 19, 1937 (2002). [CrossRef] D.R. Iskander, B.A. Davis, M.J. Collins, R. Franklin, Objective refraction from monochromatic wavefront aberrations via Zernike power polynomials, Ophthal. Physiol. Opt. 27, 245 (2007). [CrossRef] D.R. Iskander, Optom. Vis. Sci. 83, 57, (2006). [CrossRef] D.H. Szczesna, D. Alonso-Caneiro, D.R. Iskander, S.A. Read, M.J. Collins, Lateral shearing interferometry, dynamic wavefront sensing, and high-speed videokeratoscopy for noninvasive assessment of tear film surface characteristics: a comparative study, J. Bio. Opt. 15, 037005 (2010). D.H. Szczesna, D. Alonso-Caneiro, D.R. Iskander, S.A. Read, M.J. Collins, Predicting Dry Eye Using Noninvasive Techniques of Tear Film Surface Assessment, Invest. Ophthalmol. Vis. Sci. 52, 751 (2011). [CrossRef] D.H. Szczesna, D.R. Iskander, Optom. Vis. Sci. 87, 513 (2010). H.T. Kasprzak, D.R. Iskander, Ultrasonic Measurement of Fine Head Movements in a Standard Ophthalmic Headrest, IEEE Trans. Instrument. Meas. 59, 164 (2010). [CrossRef] F.C. Delori, R.H. Webb, D.H. Sliney, Maximum permissible exposures for ocular safety (ANSI 2000), with emphasis on ophthalmic devices, J. Opt. Soc. Am. A 24, 1250 (2007). [CrossRef]" @default.
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• W2080631500 title "Evaluating the Clinical Utility of Noninvasive Methods for Measuring Tear Film Surface Quality" @default.
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