Low_resolution_Thesis_CDD_221009_public - Visual Optics and ...

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$XXX Congress of the European Society of Cataract and Refractive ...$

REFERENCES References AIZAWA, D., SHIMIZU, K., KOMATSU, M., ITO, M., SUZUKI, M., OHNO, K. & UOZATO, H. (2003) Clinical outcomes of wavefront-guided laser in situ keratomileusis: 6-month follow-up. Journal of Cataract and Refractive Surgery, 29, 1507-1513. ALIO, J. L. & MONTES-MICO, R. (2006) Wavefront-guided versus standard LASIK enhancement for residual refractive errors. Ophthalmology, 113, 191-197. ANERA, R. G., JIMENEZ, J. R., JIMENEZ DEL BARCO, L. & HITA, E. (2003) Changes in corneal asphericity after laser refractive surgery, including reflection losses and nonnormal incidence upon the anterior cornea. Optics Letters, 28, 417-419. ANSI (1993) ANSI Z136.1 American National Standard for the safe use of lasers. American National Standard Institute. ANSI (2007) ANSI Z80.11 Laser Systems for Corneal Reshaping. American National Standard Institute. APPLEGATE, R. A., DONNELLY, W. J., MARSACK, J. D., KOENIG, D. E. & PESUDOVS, K. (2007) Three-dimensional relationship between high-order root-mean-square wavefront error, pupil diameter, and aging. Journal of the Optical Society of America a-Optics Image Science and Vision, 24, 578-587. APPLEGATE, R. A., HILMANTE, L. G., HOWLAND, H. C., TU, E. Y., STARCK, T. & ZAYAC, E. J. (2000) Corneal first surface optical aberrations and visual performance. Journal of Refractive Surgery, 16, 507-514. APPLEGATE, R. A., HILMANTEL, G. & HOWLAND, H. C. (1996) Corneal aberrations increase with the magnitude of radial keratotomy refractive correction. Optometry and Vision Science, 73, 585-9. ARTAL, P., BERRIO, E., GUIRAO, A. & PIERS, P. (2002) Contribution of the cornea and internal surfaces to the change of ocular aberrations with age. J. Opt. Soc. Am. A, 19, 137-143. ARTAL, P. & GUIRAO, A. (1998) Contributions of the cornea and the lens to the aberrations of the human eye. Optics Letters, 23, 1713-1715. ARTAL, P., GUIRAO, A., BERRIO, E. & WILLIAMS, D. R. (2001) Compensation of corneal aberrations by the internal optics in the human eye. Journal of Vision., 1, 1-8. http://journalofvision.org/1/1/1, DOI 10.1167/1.1.1. ARTAL, P., MARCOS, S., NAVARRO, R., MIRANDA, I. & FERRO, M. (1995) Through-focus image quality of eyes implanted with monofocal and multifocal intraocular lenses. Optical Engineering, 34, 772-779. 269
REFERENCES ARTIGAS, R., LAGUARTA, F. & CADEVALL, C. (2004) Dual-technology optical sensor head for 3D surface shape measurements on the micro- and 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 and 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 and biometric characteristics of emmetropic eyes. Journal of Vision, 8. ATCHISON, D. A. & SMITH, G. (2000) Optics 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 and 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 and the cristalline lens: Implementation of objective techniques and clinical applications. PhD thesis, University of Valladolid. BARBERO, S. (2006) Refractive power of a multilayer rotationally symmetric model of the human cornea and tear film. Journal of the Optical Society of America a-Optics Image Science and 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 and internal optics with cararact surgery. 2002 Annual Meeting Abstract and Program Planner accessed at www.arvo.org. Association for Research in Vision and 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 and corneal aberrations in an unilateral aphakic subject. Journal of Cataract and 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 & Visual Science, 40, 826- 830. BORN, M. & WOLF, E. (1993) Principles of Optics, 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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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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183
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SOFT CONTACT LENS FITTING USING MOD
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SOFT CONTACT LENS FITTING USING MOD
Page 194: ON-EYE OPTICAL PERFORMANCE OF RIGID
Page 198 and 199: ON-EYE OPTICAL PERFORMANCE OF RIGID
Page 212: SOFT MONOFOCAL AND MULTIFOCAL CONTA
Page 216: SOFT MONOFOCAL AND MULTIFOCAL CONTA
Page 220 and 221: CORRELATION BETWEEN RADIUS AND ASPH
Page 230: CONCLUSIONS Conclusions This thesis
Page 233 and 234: CONCLUSIONS 5We have developed a pr
Page 236: CONCLUSIONS LIST OF METHODOLOGICAL
Page 240 and 241: CONCLUSIONS FUTURE RESEARCH LINES T
Page 242 and 243: CONCLUSIONS LIST OF PUBLICATIONS AN
Page 246 and 247: REFERENCES PHOTODECOMPOSITION (APD)
Page 248 and 249: REFERENCES DORRONSORO, C., CANO, D.
Page 250 and 251: REFERENCES GISPETS, J., ARJONA, M.
Page 252 and 253: REFERENCES KOPF, M., YI, F., ISKAND
Page 254 and 255: REFERENCES MARCOS, S., DORRONSORO,
Page 256 and 257: REFERENCES NOVO, A., PAVLOPOULOS, G
Page 258 and 259: REFERENCES SAKIMOTO, T., ROSENBLATT
Page 260: REFERENCES WANG, L., DAI, E., KOCH,
Page 263 and 264: RESÚMENES pacientes reales fue com
Page 265 and 266: RESÚMENES experimentales de cirug
Page 267 and 268: RESÚMENES cada punto de las cornea
Page 269 and 270: RESÚMENES plástico medidas anteri
Page 272 and 273: RESÚMENES 8 Evaluación óptica de
Page 274 and 275: RESÚMENES 9 Prestaciones ópticas
Page 276 and 277: RESÚMENES 10 Calidad óptica y cal
Page 278: RESÚMENES A Correlación entre rad
Page 281 and 282: CONCLUSIONES clínicos. La descripc
Page 283 and 284: CONCLUSIONES 12 Las superficies ocu
Page 286: CONCLUSIONES IMPLICACIONES DE ESTA
Page 289 and 290: CONCLUSIONES contribuyen a la compr
Page 291: (y muchísimo más difícil). Me da
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