User:Dzreinstein/sanbox

Imaging and measurement of internal corneal anatomy is the next frontier for better understanding the cornea both before and after a refractive procedure. Accurate biometry is also an essential component for optimising intra-ocular lens (IOL) surgery. Inserting a lens into an eye based on external measurements and expecting them to be stable over decades is unrealistic. The safety of IOL surgery can only be improved by imaging the anterior segment and measuring internal dimensions. Trauma to the anterior segment, diseases such as glaucoma, and the complications of corneal and cataract surgery all benefit tremendously from preoperative delineation of the anatomical pathology. This chapter provides an overview of all these applications.
 * 1) Introduction
 * 1) Artemis Digital Ultrasound Biomicroscopy
 * 2) Method
 * 3) Data Acquisition
 * 4) Signal Processing
 * 5) Corneal Applications
 * 6) Corneal Epithelium
 * 7) Normal Corneal Epithelium
 * 8) Keratoconic Epithelium
 * 9) Epithelial thickness changes after refractive surgery
 * 10) Epithelial profile after orthokeratology
 * 11) Epithelial profile after ectasia
 * 12) Epithelial profile in irregular astigmatism
 * 13) Corneal Stroma
 * 14) Normal cornea
 * 15) Stromal thickness change after refractive surgery
 * 16) Flap
 * 17) Comparison of OCT with Artemis for imaging of the flap
 * 18) Residual Stromal Bed
 * 19) Stromal Component of the Flap
 * 20) Reinstein Flap Thickness (Original flap thickness – Figure 3, map 9)
 * 21) True Flap Thickness Morphology
 * 22) Anterior segment applications
 * 23) Anterior chamber phakic IOL sizing
 * 24) Posterior chamber phakic IOL sizing
 * 25) In-situ intraocular lens imaging
 * 26) Glaucoma
 * 27) Hypotony
 * 28) Conclusion