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REFERENCES ARTIGAS, R., LAGUARTA, F. & CADEVALL, C. (2004) Dual-technology optical sensor head for 3D surface shape measurements on the micro- <strong>and</strong> nanoscales. IN WOLFGANG, O. & MITSUO, T. (Eds.) Strasbourg, France, SPIE. ATCHISON, D. (1995) Aberrations associated with rigid contact lenses. J Opt Soc Am A, 12, 2267-73. ATCHISON, D. A., CHARMAN, W. N. & WOODS, R. L. (1997) Subjective depthof-focus of the human eye. Optometry <strong>and</strong> Vision Science, 74, 511-520. ATCHISON, D. A., MARKWELL, E. L., KASTHURIRANGAN, S., POPE, J. M., SMITH, G. & SWANN, P. G. (2008) Age-related changes in optical <strong>and</strong> biometric characteristics of emmetropic eyes. Journal of Vision, 8. ATCHISON, D. A. & SMITH, G. (2000) <strong>Optics</strong> of the Human Eye, Oxford, Butterworth-Heinemann. AWWAD, S. T., SANCHEZ, P., SANCHEZ, A., MCCULLEY, J. P. & CAVANAGH, H. D. (2008) A preliminary in vivo assessment of higherorder aberrations induced by a silicone hydrogel monofocal contact lens. Eye & Contact Lens-Science <strong>and</strong> Clinical Practice, 34, 2-5. BAEK, T., LEE, K., KAGAYA, F., TOMIDOKORO, A., AMANO, S. & OSHIKA, T. (2001) Factors affecting the forward shift of posterior corneal surface after laser in situ keratomileusis. Ophthalmology, 108, 317-320. BARBERO, S. (2004) Optical quality of the cornea <strong>and</strong> the cristalline lens: Implementation of objective techniques <strong>and</strong> clinical applications. PhD thesis, University of Valladolid. BARBERO, S. (2006) Refractive power of a multilayer rotationally symmetric model of the human cornea <strong>and</strong> tear film. Journal of the Optical Society of America a-<strong>Optics</strong> Image Science <strong>and</strong> Vision, 23, 1578-1585. BARBERO S & MARCOS, S. (2008) Analysis of the optical field at the human retina from wavefront aberration data. Journal of the Optical Society of America A. BARBERO, S., MARCOS, S. & LLORENTE, L. (2002a) Optical changes in corneal <strong>and</strong> internal optics with cararact surgery. 2002 Annual Meeting Abstract <strong>and</strong> Program Planner accessed at www.arvo.org. Association for Research in Vision <strong>and</strong> Ophthalmology. Abstract 388, 73. BARBERO, S., MARCOS, S., MERAYO-LLOVES, J. & MORENO-BARRIUSO, E. (2002b) Validation of the estimation of corneal aberrations from videokeratography in keratoconus. Journal of Refractive Surgery, 18, 263- 270. BARBERO, S., MARCOS, S. & MERAYO-LLOVES, J. M. (2002c) Total <strong>and</strong> corneal aberrations in an unilateral aphakic subject. Journal of Cataract <strong>and</strong> Refractive Surgery., 28, 1594-1600. BARRAQUER, J. I. (1967) Keratomileusis. Int Surg, 48, 103-17. BERNS, M. W., CHAO, L., GIEBEL, A. W., LIAW, L. H., ANDREWS, J. & VERSTEEG, B. (1999) Human corneal ablation threshold using the 193-nm ArF excimer laser. Investigative Ophthalmology & <strong>Visual</strong> Science, 40, 826- 830. BORN, M. & WOLF, E. (1993) Principles of <strong>Optics</strong>, Oxford, U.K., Pergamon Press. BRAINARD, D. H. (1997) The Psychophysics Toolbox. Spatial Vision, 10, 433-436. BRAREN, B. & SEEGER, D. (1986) LOW-TEMPERATURE UV LASER ETCHING OF PMMA - ON THE MECHANISM OF ABLATIVE 270
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Doctoral thesis Corneal Ablation an
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Contents Corneal Ablation and Conta
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2.2.1. Fitting surfaces............
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5.3.3. Ablation efficiency factors
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10.5. DISCUSSION...................
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We thank José Antonio Sánchez-Gil
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BOZR Back Optic Zone Radius BCVA Be
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INTRODUCTION 1.1. MOTIVATION The fr
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INTRODUCTION 1.2. THE OPTICAL SYSTE
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INTRODUCTION Myopia is a very commo
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INTRODUCTION a point focus: the dif
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INTRODUCTION system, and tilt repre
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INTRODUCTION term Z 0 2 stands for
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INTRODUCTION which image was shadow
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INTRODUCTION The defocus Zernike te
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INTRODUCTION 1.4.6.3. Internal Aber
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INTRODUCTION 1.5.2.3. Alternating v
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INTRODUCTION and further-more, at l
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INTRODUCTION alcohol is used to loo
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INTRODUCTION changes in reflectivit
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INTRODUCTION Marcos et al. (Marcos
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INTRODUCTION 1.7.3. Ablation effici
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INTRODUCTION corneal surface may be
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INTRODUCTION Algorithm design: The
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INTRODUCTION contact lenses the fie
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INTRODUCTION 1.10.1. Tear studies A
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INTRODUCTION there are still many u
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INTRODUCTION 6. Evaluation and unde
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METHODS 2Chapter Chapter 2 - Method
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METHODS 2.1. MEASUREMENT OF OPTICAL
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METHODS In both profilometers, cust
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METHODS The measurement method that
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METHODS Fig. 2. 9. Set of points in
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METHODS Slit lamp Scheimpflug Camer
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METHODS representing the deviation
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METHODS 2.2.2.2. Ablation pattern f
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METHODS direction. These calculatio
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METHODS eye through the whole pupil
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METHODS (1993) power thresholds for
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METHODS alignment (frontal-illumina
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METHODS Fig. 2. 24. Example frame f
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METHODS 4) New image processing too
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METHODS Fig. 2. 28. Corrected entra
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METHODS Badal lens, corresponds to
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METHODS Each VA measurement consist
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REFRACTIVE SURGERY PMMA MODEL 3.1.
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CHAPTER 3 optimization of refractiv
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CHAPTER 3 These data demonstrate th
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CHAPTER 3 regression line, since it
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CHAPTER 3 Figure 3.3 shows one of t
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CHAPTER 3 Ablation efficiency facto
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CHAPTER 3 considering the same set
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CHAPTER 3 3.5.3 Impact of correctio
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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ABLATION PROPERTIES OF FILOFOCON A
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OPTIMIZED LASER PLATFORMS 5.1 ABSTR
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CHAPTER 5 pulses. Fluence, repetiti
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CHAPTER 5 ablations. The slit-confo
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CHAPTER 5 (Anera et al., 2003): d S
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CHAPTER 5 asymmetries also appeared
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CHAPTER 5 5.3.4. Ablation patterns
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CHAPTER 5 a) b) : 6.5 mm c) Fig. 5.
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CHAPTER 5 achieve proper reflection
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CHAPTER 5 Both the ablation algorit
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HYBRID PORCINE/PLASTIC MODEL 6.1. A
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CHAPTER 6 6.3.1. Hybrid porcine-pla
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CHAPTER 6 is detected. Therefore, i
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CHAPTER 6 no preferential orientati
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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ANTERIOR AND POSTERIOR CORNEAL ELEV
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183
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SOFT CONTACT LENS FITTING USING MOD
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SOFT CONTACT LENS FITTING USING MOD
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