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" Aberration-Free Refractive Surgery : "
edited by Josef F. Bille, Carol F.H. Harner, Frieder H. Loesel.
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BL
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724282
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b544001
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| Main Entry
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edited by Josef F. Bille, Carol F.H. Harner, Frieder H. Loesel.
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| Title & Author
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Aberration-Free Refractive Surgery : : New Frontiers in Vision\ edited by Josef F. Bille, Carol F.H. Harner, Frieder H. Loesel.
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| Publication Statement
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Berlin, Heidelberg: Springer Berlin Heidelberg, 2003
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(xv, 206 pages)
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| ISBN
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3642979181
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: 9783642979187
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| Contents
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1 The Development of Wavefront Technology and its Application to Ophthalmology --;1.1 Abstract --;1.2 Introduction --;1.3 History --;1.4 Principle of Aberration Measurement --;1.5 Definitions of Optical Imaging Quality --;1.6 Principle of Closed Loop Adaptive Optical Control --;1.7 CLAO/Bille Aberrometer --;1.8 Demonstration of CLAO/Bille Aberrometer --;1.9 Conclusion --;References --;2 Optical Quality of the Human Eye --;2.1 Introduction --;2.2 The Quality of the Human Eye --;2.3 Linear Systems --;2.4 Representation of Aberrations --;2.5 Simulations --;References --;3 First Clinical Results with WaveScan(Tm) --;3.1 First Clinical Results with WaveScan(Tm) --;3.2 The Performance of a Wavefront Measurement and the Understanding of the WavePrint(Tm) Maps --;3.3 Application of the WaveScan(Tm) in Refractive Surgery --;3.4 Results of this Study: The Reliability of the WaveScan(Tm) Compared to Manifest Refraction --;3.5 Final Review --;4 Wavefront Analysis: Clinical Primer --;4.1 Definition of Important Terms --;4.2 Current Ocular Refraction Evaluation Systems --;4.3 How the VISX 20/10 Wavefront System Works --;4.4 How to Read a Wavefront Map --;4.5 What are the Shortcomings of Shack-Hartmann Wavefront Analysis? --;4.6 Reproducibility and Effect of Pupil Size --;4.7 Clinical Examples --;5 The VISX STAR S3(Tm) ActiveTrak(Tm) Eye Tracker --;5.1 Introduction --;5.2 Design Requirements --;5.3 Conclusion --;References --;6 Method for Wavefront Driven Custom Ablations --;6.1 Introduction --;6.2 Variable Spot Scanning --;6.3 Discussion of the Computation Problem --;6.4 VSS(Tm) for Pure Refractive Targets --;6.5 VSS for Arbitrary Shapes --;6.6 Wavefront Corrections --;6.7 Creating Corrective Ablation Targets --;6.8 PreVue(Tm) Lenses --;6.9 Conclusion --;6.10 Addendum: Search Algorithms --;References --;7 Wavefront Driven Custom Ablation: First Clinical Results --;7.1 Introduction --;7.2 History --;7.3 Methods --;7.4 The Study --;7.5 Results --;7.6 Conclusion --;References --;8 Photorefractive Keratectomy: Indications, Surgical Techniques, Complications, and Results --;8.1 Introduction --;8.2 Indications for PRK --;8.3 Preoperative Management --;8.4 Surgical Technique --;8.5 Preoperative Medications --;8.6 Epithelial Removal --;8.7 Nomogram and Laser Algorithm --;8.8 Postoperative Management --;8.9 Complications --;8.10 Late Complications --;8.11 Results --;8.12 Summary --;9 Refractive Surgical Applications of Ultrashort Pulse Lasers --;9.1 Introduction --;9.2 Laser-Tissue Interaction --;9.3 All-Solid-State Femtosecond Laser Technology --;9.4 Instrumentation --;9.5 Experimental Results --;9.6 Conclusion and Outlook --;References --;Appendices --;A Refractive Society Symposium --;A.1 Comparing WaveScan(Tm) and Manifest Refractions --;D.D. Koch --;A.2 Patient Selection for LVC Using Wavefront Technology --;J.F. Doane --;A.3 Multi-center Wavefront Ablations --;Te. P. O'Brien --;A.4 Six-month U.S. Refractive Wavefront Ablation Results --;C. Kraff --;A.5 Preliminary Therapeutic Wavefront Ablation Results --;R.K. Maloney --;A.6 Presbyobic LASIK Techniques --;G.E. Tamayo --;A.7 Diagnostic Wavefront Compensation with Adaptive Optics --;F.H. Loesel --;B Refractive Outcomes with 'One-Step' Wavefront Guided LASIK --;D.D. Koch --;L. Wang --;Multicenter VISX Study Group --;B.1 Introduction --;B.2 Patients and Methods --;B.2.1 Patient Selection --;B.2.2 WaveScan(Tm) Treatment Design --;B.2.3 WavePrint(Tm) Treatment Methods --;B.2.4 Main Outcome Measures --;B.3 Results --;B.3.1 Cohort Description --;B.3.2 UCVA --;B.3.3 Change in BSCVA --;B.3.4 Predictability --;B.3.5 Stability --;B.3.6 Higher Order Aberration Changes --;B.3.7 Complications and Adverse Events --;B.4 Conclusion --;About the Editors.
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| Abstract
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In recent years, new surgical techniques have evolved for customized correc tion of refractive disorders, based on groundbreaking achievements in objec tive assessment of refractive properties of the human eye and greatly refined excimer laser surgical vision correction systems. This book comprises a thor ough discussion of the underlying optical and laser-technological principles as well as the first clinical studies for wavefront guided LASIK ablations. In the first two chapters, the development of wavefront technology and its application to ophthalmology and the assessment of the quality of the human eye are presented. In Chaps. 3 and 4 first clinical results with WaveScan (Tm) in American and European clinics are summarized. The basic technologies, three-dimensional eye tracking and wavefront driven custom ablation pro cedures are covered in Chaps. 5 and 6. First clinical results of, wavefront driven custom ablation, the so-called Heidelberg Study, are summarized in Chap. 7. In Chap. 8 the state of the art in photorefractive keratectomy and LASEK clinical results is presented. Chapter 9 contains with first surgical applications of ultrashort pulse femtosecond laser surgery, a glimpse into one of the promising future technological developments in refractive surgery. In Appendix A several contributions to the Refractive Society Symposium (New Orleans, November 11, 2001) are briefly summarized. The book is concluded with Appendix B: Refractive Outcomes With "One-Step" Wavefront Guided LASIK, which was presented at the recent ASCRS Conference in Philadel phia (June 2002), summarizing the Htatus of the clinical VISX US-FDA Htudy on custom ablations.
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| Subject
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Medicine.
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| Subject
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Ophthalmology.
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| LC Classification
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RE86.E358 2003
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| Added Entry
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C F H Harner
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F H Loesel
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Josef F Bille
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