Unique Diagnostic Applications in Corneal and ICL Refractive Surgery: Raising the Standard of Care
Dr. Dan Z. Reinstein
Tuesday, December 3, 2019
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Chapters
Introduction
Financial Disclosure
ArcScan Artemis "Insight 100"
Water Bath Much Improved
ArcScan Insight 100
OCT Devices Measuring Epithelium
VHF Digital Ultrasound Applications
Current OCTs: Applications
Advanced Diagnostics
VHF Digital Ultrasound-Epithelial Publications
Tear Film Affects Epithelial Thickness
OCT vs VHF Digital Ultrasound Epithelium
Normal Epithelial Thickness Profile
Average Normal Epithelial Thickness Profile
Epithelial Thickness Mapping for Keratoconus Screening
Theory of Early Keratoconus
Epithellial Changes in Keratoconus
Epithelial Thickness Profile: Normal vs Ketatoconus
VHFU Automated Algorithm (2014)
Automated Algorithm
Epithelial Thickness as Adjunctive Tool: Suspect Topograpy, Suspect Tomography
Suspect Keratoconus
Epithelial Thickness as Adjunctive Tool: Normal Topography, Suspect Tomography
Epithelial Thickness as Adjunctive Tool: Normal Topography, Normal Tomography
Otherwise Normal
Avoid False-Negatives: Avoid Ectasia
Avoid False-Positives: More Candidates
Epithelial Thickness Mapping for Hyperopic Correction
Epithelium vs Keratometry: Further Steepening?
High Hyperopic LASIK Safety +4 to +7.00 D
Law of Epithelial Compensation
Topography can be Misleading
Front Surface Topography
Epithelial Thickness
Cross-Sectional B-scan
Treatment: Trans-Epithelial PTK
VHF Ultrasound Guided PTK Treatment
VHF Digital Ultrasound Technology: New Frontier
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