1. Dr. Desinee Drakulich O.D.

2.  I do not have any affiliations nor am I paid by any of the companies that are used in this presentation.

3.  Historical overview of scleral lens  Detailed review of structure and design  Detailed process of fitting  Introduction of sagittal depth  Peripheral curves  Edge lift  Diameter  Slit Lamp images  OCT images  Why and when we use scleral lenses  Advantages and Disadvantages  Comparing other RGPs

7.  The scleral contact lens was the first contact described in medical literature.  In 1888, Adolf Fick developed the first blown glass scleral contact.  Also in 1888, Eugene Kalt started using blown glass scleral contacts for the treatment of keratoconus.  In 1889, August Mueller made himself a ground glass scleral lens for his high myopia and used it for his doctorial dissertation.

8.  Scleral CLs never really progressed much after that due to the poor oxygen permeability of glass.  Re-introduced in 1900’s with the advent of PPMA material. More oxygen permeable than glass but still not great. Fenestration was added to try to increase oxygen permeability.  Developers started making lenses small to allow the tear to flow under the CL and increase oxygen.

9.  In 1970, scleral lens were re-introduced again in Rigid Gas Permeable materials.  Lens were difficult to fit and intimidating due to there relative size.  With the recent focus on Dry Eye Disease contact lens companies have began promoting scleral lenses as a suitable solution for dry eye patients who want to remain in contacts.

10. PPMA Material RGP Material

11.  Glass = 0 Dk/t  PPMA = 0 Dk/t  Boston EO = 31-61 Dk/t  Boston XO = 61-100 Dk/t  Fluoroperm 151 = 151-200 Dk/t  Air Optix Night and Day = 140 Dk/t  Scleral Lenses = 10 - 36.7 Dk/t in center 17.4 – 62.6 Dk/t in peripheries

13.  The Jupiter Scleral Lens has two designs – 15 mm diameter and the 18 mm diameter.  Both are true scleral lenses, meaning they bear on the sclera and vault the cornea.  Both have 5 curves organized in 3 zones

14.  The Corneal Zone – the central corneal curve and the Aspheric peripheral corneal curve.  The Limbal Zone – the Aspheric scleral curve.  The Scleral Zone – the Aspheric scleral curve and the Aspheric edge curve.

15. Central Corneal Curve Aspheric peripheral curve Aspheric Scleral Curve Aspheric edge curve

16.  The Jupiter Standard – central and peripheral curves in Zone 1 are the SAME.  The Jupiter Advanced Keratoconic – central curve STEEPER than peripheral curve.  The Jupiter Reverse Geometry – central curve FLATTER than the peripheral curve.  There is a fourth design – Toric Scleral Zone – front toric with double slab off ballasting.

17.  Base Curve – any  Diameter – 13.5 mm to 24.0 mm  BV power - +50.00 D to -75.00 D in 0.25 steps  Cylinder power - -0.25 D to 15.00 D in 0.25 steps  Axis – 1˚ to 180˚ in 1˚ steps  Diagnostic lenses – 14 pre-designed lenses for each 3 configurations.

18.  Standard RGPs and Soft CLs rely heavily on Base Curve and Diameter to fit them properly.  Scleral CLs rely heavily on Corneal Sagittal Depth and Diameter.  With the use of an anterior segment OCT scan one can easily calculate the sagittal depth of the cornea and what the sagittal depth of the contact would be needed for that patient.

22.  When fitting you need to ensure adequate corneal clearance.  What is adequate?  For 18 mm design – 40 to 200 um  For 15 mm design – 50 to 200 um

24.  An OCT makes fitting Scleral CLs easier; however it is not necessary.  If you have the pachymetry reading of your patients cornea you can use that as a guide to estimate the corneal clearance of the scleral contact in the slit lamp.  If clearance is too low you need to either increase sagittal depth by steeping the base curve or increasing the diameter.  For example:

25. Corneal thickness = 540 Fluoress clearance ~ ½ the corneal thickness Corneal Clearance ~ 270 um

26.  I always start steep and back down from there approximately 1.00 D STEEPER than patients STEEPEST curvature.  I have learned from me own fitting experience that it is important on initial fit that you leave about 400 um clearance.  The reason for this is the scleral elasticity of every person is different.  These lens can settle any where between 50 um to 250 um in a 4h period and can continue to settle up to 8h.

30.  Limbal clearance – complete and generous limbal clearance insures good tear circulation.  If there is very little limbal clearance you must pick a large diameter lens.  If there is too much limbal clearance large bubbles will form and a smaller diameter should be uses.  Examples:

33.  Peripheral Curves need to be adjusted to either tighten or loosen the fit of the CL.  If the PCs are to tight this can lead to vessel blanching, hyperemia, difficulty removing the lens, fogging and discomfort for the patient.  If the PCs are to loose seal off can not be maintained and the lens will not stay on the cornea.  Examples:

38.  Dry Eye  Ocular Surface disease  Keratoconus  High refractive error  Irregular Corneas  Post Lasik  Post RK  Post PKP  Injury/Scarring

39.  Advantage – since the scleral contact is filled with preservative free saline the cornea is constantly bathed in fluid throughout the day.  Advantage – since the scleral contact is vaulted over the cornea instead of touching the cornea it does not compromise the integrity of the corneal surface.  Disadvantage – lenses are large and difficult to handle.  Disadvantage – cost ~ 300 dollars per lens

40.  Keratoconus is a progressive thinning of the cornea secondary to the loss of the collagen fiber integrity. Thinning causes a bulging of the cornea resulting in an irregular corneal surface.  Treatment for keratoconus:  Rigid Gas Permeable contacts  Hybrid Contacts (Duette)  Specialty Contacts (Rose K, Rose K2IC, Rose K Post)  Scleral Contacts  Surgery (Corneal Cross-linking, Intacs, PKP)

43. Keratocnusooooooooooo

44.  Advantage – corneal vaulting reduce risk of corneal scarring since the lens does not touch the cornea.  Advantage – excellent visual outcome even with advanced keratoconic patients.  Disadvantage – difficult to handle  Disadvantage - cost

45.  Advantage – wide range of available powers  BV power - +50.00 D to -75.00 D in 0.25 steps  Cylinder power - -0.25 D to 15.00 D in 0.25 steps  Axis – 1˚ to 180˚ in 1˚ steps  Disadvantage – difficult to handle  Disadvantage - Cost

46.  Advantage – wide range of powers  Advantage – does not compromise corneal integrity  Advantage – gives excellent visual outcome  Disadvantage – difficult to handle  Disadvantage - Cost

47.  Scleral lenses are not difficult to fit if you follow some simple rules.  Scleral lenses have improved materials and oxygen permeability to make them safe to fit.  They can be a life saver for that difficult dry eye patient or irregular cornea.  They are difficult to handle due to their large size  They are no inexpensive, but worth it for the right patient.