Femtosecond Laser - Principles and Application in Ophthalmology / UNI-MED Science (PDF)
(Sprache: Englisch)
In the last decade, there have been significant developments in the application of femtosecond laser technology in ophthalmic procedures. This book provides a comprehensive review of the technology, from the historical background and fundamental principles...
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In the last decade, there have been significant developments in the application of femtosecond laser technology in ophthalmic procedures. This book provides a comprehensive review of the technology, from the historical background and fundamental principles of lasers, through to the latest state-of-the-art clinical applications in ophthalmology. Therapeutic applications, use in refractive LASIK procedures and the latest advances in the treatment of presbyopia using a femtosecond laser are discussed in-depth. Looking ahead, the future innovations and the potential of femtosecond laser technology in ophthalmology are explored, to provide a complete guide to this technology sector.
Inhaltsverzeichnis zu „Femtosecond Laser - Principles and Application in Ophthalmology / UNI-MED Science (PDF)“
1. Introduction and historical overview 18 1.1. Some milestones in the development of femtosecond lasers and their applications 18 1.2. References 19 2. Physical principles of the generation and amplification of ultrashort laser pulses 22 2.1. Laser process and laser resonator 22 2.2. Bandwidth of laser radiation 22 2.3. Laser resonator 22 2.4. Mode synchronisation (mode-locking) 23 2.5. Amplification of fs pulses 24 2.6. References 26 3. Femtosecond lasers in ophthalmology: laser-tissue interaction, multiphoton imaging, biomechanical modelling 28 3.1. Introduction 28 3.2. Laser-tissue interaction 28 3.3. Multiphoton imaging 30 3.4. Biomechanical modelling 34 3.5. Conclusions and outlook 36 3.6. References 37 4. Clinical application 40 4.1. Intrastromal femtosecond laser incisions 40 4.1.1. Introduction 40 4.1.2. Implantation of ICRS and effects on keratoconus 40 4.1.3. Mechanical tunnel incisions and implantation of ICRS 40 4.1.4. Femtosecond laser-controlled tunnel incisions before ICRS implantation 41 4.1.5. Application 41 4.1.6. Surgery 42 4.1.7. Case report: Ex- and reimplantation of ICRS in keratoconus with fs laser support 44 4.1.8. Long-term postoperative results 45 4.1.9. Summary 46 4.1.10. References 46 4.2. Perforating keratoplasties with the femtosecond laser 47 4.2.1. Introduction 47 4.2.2. High degree of flexibility in the pKPL using the femtosecond laser 47 4.2.3. Application 48 4.2.4. Surgery 50 4.2.5. Results 50 4.2.6. Case reports 51 4.2.7. Summary 53 4.2.8. References 53 4.3. Penetrating keratoplasty using the TECHNOLAS femtosecond laser: The Heidelberg Experience 54 4.3.1. Introduction 54 4.3.2. Studies on penetrating keratoplasty with the TECHNOLAS fs laser 54 4.3.2.1. Clinical experiences 54 4.3.2.2. Histopathology of corneal buttons 56 4.3.2.3. Postoperative endothelial cell count 57 4.3.3. Results of penetrating keratoplasty by different fs laser cut designs 58 4.3.4. References 59 4.4. Anterior lamellar keratoplasties with the femtosecond
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laser 60 4.4.1. Introduction 60 4.4.2. Application 60 4.4.3. Surgery 60 4.4.4. Results 61 4.4.5. Case reports 61 4.4.6. Summary 63 4.4.7. References 63 4.5. Endothelial grafts or posterior lamellar keratoplasties with the femtosecond laser 63 4.5.1. Introduction 63 4.5.2. Application 63 4.5.3. Surgery 65 4.5.4. Results 65 4.5.5. Case reports 65 4.5.6. Summary 67 4.5.7. References 67 4.6. Astigmatic keratotomies with the femtosecond laser 67 4.6.1. Introduction 67 4.6.2. Indications 68 4.6.3. Diagnostic analysis 68 4.6.4. Application 68 4.6.5. Surgery 69 4.6.6. Case reports 69 4.6.7. References 72 5. Refractive surgery with the femtosecond laser 76 5.1. Flap dissection during LASIK (Femto-LASIK) 76 5.1.1. Background 76 5.1.2. Hinge position 76 5.1.3. Hinge length 77 5.1.4. Flap thickness 77 5.1.5. Geometry of the angle of incision (side cut) 77 5.1.6. Flap diameter 77 5.1.7. Visual control of flap dissection 78 5.1.8. Application of flap preparation 78 5.1.9. Surgery 79 5.1.10. Summary 80 5.1.11. Studies on flap cutting with the TECHNOLAS fs laser: The Heidelberg Experience 80 5.1.12. References 81 5.2. Intrastromal refractive correction with the femtosecond laser 82 5.2.1. Refractive surgery - an introduction 82 5.2.2. The INTRACOR procedure 83 5.2.3. CE approval study for INTRACOR 83 5.2.4. Patient selection for INTRACOR 85 5.2.5. References 86 6. Prospects for femtosecond laser in ophthalmology 88 6.1. Introduction 88 6.2. Femtosecond technology - where to now? 88 6.3. Clinical prospects 89 6.4. References 91 Index 94
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Bibliographische Angaben
- Autor: Mark Tomalla
- 2010, 1. Auflage, 96 Seiten, Englisch
- Verlag: Uni-Med Verlag Ag
- ISBN-10: 3837452204
- ISBN-13: 9783837452204
- Erscheinungsdatum: 16.03.2010
Abhängig von Bildschirmgröße und eingestellter Schriftgröße kann die Seitenzahl auf Ihrem Lesegerät variieren.
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