2nd Edition Dr Agarwal's Textbook on CORNEAL TOPOGRAPHY Including Pentacam and Anterior Segment OCT SECOND EDITION Editors Amar Agarwal Athiya Agarwal Soosan Jacob Dr Agarwal's Group of Eye Hospitals and Eye Research Centre India Foreword Parag A Majmudar ® 4- J AY PEE - HIGHLIGHTS • MEDICAL PUBLISHERS, INC. Published by Jitendar P Vij Jaypee Brothers Medical Publishers (P) Ltd Corporate Office 4838/24 Ansari Road, Daryaganj, New Delhi - 110002, India, Phone: +91-11-43574357, Fax: +91-11-43574314 Registered Office B-3 EMCA House, 23/23B Ansari Road, Daryaganj, New Delhi - 110002, India Phones: +91-11-23272143, +91-11-23272703, +91-11-23282021 +91-11-23245672, Rei: +91-11-32558559, Fax: +91-11-23276490, +91-11-23245683 e-mail: [email protected], Website: www.jaypeebrothers.com Offices in India Ahmedabad, Phone: Rei: +91-79-32988717, e-mail: [email protected] Bengaluru, Phone: Rei: +91-80-32714073, e-mail: [email protected] Chennai, Phone: Rei: +91-44-32972089, e-mail: [email protected] Hyderabad, Phone: Rel:+91-40-32940929, e-mail: [email protected] Kochi, Phone: +91-484-2395740, e-mail: [email protected] Kolkata, Phone: +91-33-22276415, e-mail: [email protected] Lucknow, Phone: +91-522-3040554, e-mail: [email protected] Mumbai, Phone: Rei: +91-22-32926896, e-mail: [email protected] Nagpur, Phone: Rei: +91-712-3245220, e-mail: [email protected] Overseas Offices North America Office, USA, Ph: 001-636-6279734, e-mail: [email protected] [email protected] Central America Office, Panama City, Panama, Ph: 001-507-317-0160, e-mail: [email protected] Website: www.jphmedical.com Dr Agarwal's Textbook on Corneal Topography Including Pentacam and Anterior Segment OCT © 2010, Jaypee Brothers Medical Publishers (P) Ltd. All rights reserved. No part of this publication should be reproduced, stored in a retrieval system, or transmitted in any form or by any means: electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the editors and the publisher. This book has been published in good faith that the material provided by contributors is original. Every effort is made to ensure accuracy of material, but the publisher, printer and editors will not be held responsible for any inadvertent error(s). In case of any dispute, all legal matters are to be settled under Delhi jurisdiction only. First Edition: 2006 Second Edition: 2010 ISBN 978-81-8448-861-6 Typeset at JPBMP typesetting unit Printed at Ajanta Offset & Packagings Ltd., New Delhi PREFACE TO THE SECOND EDITION When we wrote the first edition of the corneal topography book, we did not believe it would become a best seller so fast. So when Shri Jitendar P Vij, President of Mis Jaypee Highlights Medical Publishers, Inc. contacted us asking for us to work on the second edition of the book we were pleasantly surprised. To write a book on corneal topography is extremely difficult. The reason is to explain every topic whether it is post-LASIK ectasia or decentered ablation is a challenge by itself. In this book we have covered various machines like the orbscan and the pentacam. We have also covered related topics like the anterior segment OCT and the aberrometers as they are complementary to the topography machine. We would like to thank all the contributors who are big names but more important have become now part of our family. We would also like to thank Shri Jitendar P Vij and the whole team of Mis Jaypee Highlights Medical Publishers, Inc. for bringing out this book. Amar Agarwal Athiya Agarwal Soosan Jacob • CONTENTS SECTION ONE: INTRODUCTION TO CORNEAL TOPOGRAPHY AND ORBSCAN 1. Fundamentals on Corneal Topography ........................................................................................................... 3 Guillermo L Simon-Castellvi, Sarabel Simon-Castellvi, Jose Maria Simon-Castellvi, Cristina "Simon-Castellvi (Spain) 2. Topographic Machines .................................................... :. ................................................................................ 29 Guillermo L Simon-Castellvi, Sarabel Simon-CastelIvi, Jose Maria Simon-Castellvi, Cristina Simon-Castellvi (Spain) 3. Corneal Topography and the Orbscan .......................................................................................................... 47 Amar Agarwal, Athiya Agarwal (India) 4. The Orbscan lIz Diagnostic System and Zywave Wavefront Analysis ................................................. 55 Gregg Feinerman, N Timothy Peters, Kim Nguyen, Marcus Solorzano, Shiela Scott (USA) SECTION TWO : ORBSCAN AND REFRACTIVE SURGERY 5. Orbscan Corneal Mapping in Refractive Surgery ....................................................................................... 75 Francisco Sanchez Leon (Mexico) 6. Anterior Keratoconus ......................................................................................................................................... 87 Amar Agarwal, Athiya Agarwal (India) 7. Posterior Corneal Changes in Refractive Surgery ....................................................................................... 93 Amar Agarwal, Soosan Jacob, Athiya Agarwal (India) 8. Corneal Ectasia Post-LASIK: The Orbscan Advantage ........................................................................... 103 Erik L. Mertens, Arun C Gulani, Paul Karpecki (USA) SECTION THREE: PENTACAM AND ANTERIOR SEGMENT OCT 9. Pentacam ............................................................................................................ :. ................................................ 117 Tracy Schroeder Swartz (USA) 10. Evaluation of Patients for Refractive Surgery with Visante Anterior Segment OCT and the Combined Datalink with Atlas Corneal Topographer ............................................................ 137 Amin Ashrajzadeh, Roger-Steinert (USA) SECTION FOUR: ABERROPIA, ABERRATIONS AND TOPOGRAPHY 11. Corneal Topographers and Wavefront Aberrometers: Complementary Tools ................................... 161 Tracy Schroeder Swartz, Ming Wang, Arun C Gulani (l!SA) 12. Aberrometry and Topography in the Vector Analysis of Refractive Laser Surgery ......................... 175 NoeLA Alpins, Gemma Walsh (Australia) 13. Aberropia: A New Refractive Entity ............................................................................................................ 185 Amar Agarwal, Athiya Agarwal (India) 14. Differences Between Various Aberrometer Systems ................................................................................ 195 Ronald R Kreuger (USA) 15. Corneal Wavefront-guided Excimer Laser Surgery for the Correction of Ocular Aberrations .................................................................................................................. 201 Jorge L Alio, David P Pinero, Mohamad Rosman (Spain) xvi Textbook on Corneal Topography Including Pentacam and Anterior Segment OCT 16. Ocular Higher Order Aberration Induced Decrease in Vision (Aberropia): Characteristics and Classification ................................................................................................................. 219 Amar Agarwal, Soosan Jacob, Dhivya A Kumar, Rahul Tiwari, Athiya Agarwal (India) 17. Topographic and Aberrometer Guided Laser ........................................................................................... 231 Amar Agarwal, Athiya Agarwal (India) 18. NAV wave: Nidek Technique for Customized Ablation ....................................................................... 239 Masanao Fujieda, Mukesh Jain (Japan), Peter Kellar (Australia) SECTION FIVE: REFRACTIVE PROCEDURES AND CONDITIONS 19. Post-LASIK Iatrogenic Ectasia ....................................................................................................................... 251 Melania Cigales, Jairo-Hoyos-Chacan, Jairo E Hoyos (Spain) 20. Decentered Ablations ...................................................................................................................................... 271 Helen Boerman, Ming Wang, Tracy Schroeder Swartz (USA) 21. Irregular Astigmatism: Lasik as a Correcting Tool ................................................................................... 287 Jorge L Alia, Jose I. Belda Sanchis, Ahmad MM Shalaby (Spain) 22. Presbyopic LASIK ............................................................................................................................................. 307 Amar Agarwal, Athiya Agarwal (India), Guillermo Avalos (Mexico) 23. Phototherapeutic Keratectomy (PTK) .......................................................................................................... 315 Jes Mortenson (Sweden) 24. Conductive Keratoplasty for Changing Corneal Curvature ................................................................... 321 Roberto Pinelli (Italy) 25. Intacs TM: Refractive Correction with an Intracorneal Device ................................................................ 333 Terry E Burris, Debby Holmes-Higgin (USA) 26. Posterior Chamber Implantable Collamer Lens: ICL and Toric ICL .................................................... 343 Mohamed Alaa EI-Danasoury (Saudi Arabia) 27. Nidek OPD Scan in Clinical Practice .......................................................................................................... 369 Gregg Feinerman, N Timothy Peters, Kim Nguyen, Marcus Solorzano, Shiela Scott (USA) SECTION SIX: CATARACT 28. Corneal Topography in Cataract Surgery .................................................................................................... 379 Athiya Agarwal, Amar Agarwal (India) 29. Corneal Topography in Phakonit with a 5 mm Optic Rollable IOL. .................................................. 389 Amar Agarwal, Athiya Agarwal (India) Index ...................................................................................................................................................................... 399 f f f Section One Introduction to Corneal Topography and Orbscan Fundamentals on Corneal Topography ~ )- Topographic Machines )- Corneal Topography and the Orbscan )- The Orbscan liZ Diagnostic System and Zywave Wavefront Analysis One FUNDAMENTALS ON CORNEAL TOPOGRAPHY Guillermo L Sim6n-Castellvi Spain Sarabel Sim6n-Castellvi Spain Jose Maria Sim6n-Castellvi Spain Cristina Sim6n-Castellvi Spain 4 Introduction to Corneal Topography and Orbscan INTRODUCTION: HUMAN OPTICS AND THE NORMAL CORNEA The cornea is the highest diopter of human eye, accounting alone for about 43-44 diopters at corneal apex (about two thirds of the total dioptric power of the eye). It has an average radius of curvature of 7.8 mm. A healthy cornea is not absolutely transparent: It scatters almost 10% of the incident light, primarily due to the scattering at the stroma. The corneal geography can be divided into four geographical zones from apex to limbus, which can be easily differentiated in color corneal videokeratoscopy: 1. The central zone (4 central millimeters): It overlies the pupil and is responsible for the high definition vision. The central part is almost spherical and called apex. 2. The paracentral zone: Where the cornea begins to flatten 3. The peripheral zone 4. The limbal zone Refractive surgery refers to a surgical or laser procedure performed on the cornea, to alter its refractive power. The major refractive component of the cornea being its front surface, it is not difficult to understand that most refractive techniques have involved this frontal surface (PRK, radial keratotomies, ... ). Nevertheless, posterior surface of the cornea also accounts, and that is the reason why a "posterior surface corneal topographer" like the Orbscan™ - Bausch and Lomb® was developed by Orbtek®, in the race for a more precise refractive surgery. The cornea of an eagle is almost as transparent as glass: There is almost no scattering of incident light. That alone explains the resolution of an eagle eye being much better than ours. As we are never satisfied, we are now developing new tools and extremely promising laser surgical techniques that have proven to increase human being visual acuity by reducing corneal aberrations: we reduce diopters and also improve visual acuity. The new dream is "supervision". Topographic and aberrometer-linked LASIK are on the way to achieve this goal of better-than-normal vision. Bausch and Lomb®'s Zywave™ combines topography and wavefront measurements to achieve customized computer controlled flying spot excimer laser ablation, which appears to be fundamental in treating irregular astigmatisms or retreating unsatisfied LASIK patients to regularize the corneal shape. Regularizing the corneal shape has the theoretical advantage of improving the quality of vision by means of reduction of halos, glare and any other optical aberrations. We are on the way to achieve an aberration-free visual system, though the influence of all other dioptric surfaces (vitreous, lens, ... ) and interfaces still has to be ascertained (Table 1.1). In this chapter we will try to introduce the novice to this interesting new world of instruments recently developed due to the advent of refractive corneal surgery. We have tried to show different maps from different systems, trying to make an interesting basic atlas of corneal topography. Corneal maps of rare cases and Table 1.1: Indications and uses of corneal topographers The use of computerized corneal topography is indicated in the following conditions: 1. Preoperative and postoperative assessment of the refractive patient 2. Preoperative and postoperative assessment of penetrating keratoplasty 3. Irregular astigmatism 4. Corneal dystrophies, bullous keratopathy 5. Keratoconus (diagnostic and follow-up) 6. Follow-up of corneal ulceration or abscess (Figure 1.3) 7. Post-traumatic corneal scarring 8. Contact lens fitting 9. Evaluation of tear film quality 10. Reference instrument for IOL-implants to see the corneal difference before and after surgery 11. To study unexplained low visual acuity after any surgical procedure (trabeculectomy, extracapsular lens extraction, ... ). 12. Preoperative and postoperative assessment of Intacs™ corneal rings (intrastromal corneal rings) Fundamentals on Corneal Topography 5 complications can be found in the different chapters of this book. Please refer to them for better knowledge. There is no perfect system to assess true corneal surface shape, but we still have to rely on the instruments we have, waiting for new instruments and methods being developed for better accuracy. With that goal in mind BioShape AG® has developed the EyeShape™ system, based on a principle called fringe projection. Patterns of parallel lines are first imaged onto a reference and then onto the surface to be measured. D~tection of the lines with a digital camera under a tilted angle yields distorted line patterns. The deviation of the detected lines from the original lines together with the tilt make it possible to calculate the absolute height at any point on the surface of the cornea (or not). INSTRUMENTS TO MEASURE THE CORNEAL SURFACE The normal corneal surface is smooth: A healthy tear film neutralizes corneal irregularities. The cornea, acting as a convex "almost transparent" mirror, reflects part of the incident light. Different instruments have been developed to assess and measure this corneal reflex. These non contact instruments use a light target (lamp, mires, Placido disks, etc.) and a microscope or another optic system to measure corneal reflex of these light targets (Tables 1.2 and 1.3). Table 1.2: Advantages and disadvantages of projection-based systems over reflection-based ones Advantages Measurement of direct corneal height Ability to measure: irregular corneal surfaces non-reflective surfaces Higher resolution (theoretical) Uniform accuracy across the whole cornea Less operator dependent Do not suffer from spherical bias Disadvantages Not standard instruments (most are still prototypes): complex to use need clinical experience validation nonstandard presentation maps (more difficult to learn) Longer examination time: longer image acquisition time longer image analysis Fluorescein instillation needed (in some, like the Euclid Systems Corporation® ET-8(X)TM) Table 1.3: Different methods of measuring corneal surface used by modern corneal topographers Placido systems (small cone or large disk) are the most popular Placido cone with arc-step mapping (Keratron™ from Optikon 2000®) Placido's disk with arc-step mapping (Zeiss Humphrey®A tlas™) Slit-lamp topo-pachymetry (Orbscan™ -Bausch and Lomb®) Fourier profilometry (Euclid Systems Corporation® ET -8(X)TM) Fringe projection or Moire interference fringes (EyeShape® from BioShape AGTM) Triangulation ellipsoid topometry (Technomed™ color ellipsoid topometer) Laser interferometry (experimental method, it records the interference pattern generated on the corneal surface by the interference of two lasers or coherent wave fronts)