Pre- and Post-op Diagnoses
Here's how wavefront technology reveals the causes of some previously confounding vision issues after corneal laser treatment and IOL implants.
By Louis J. Catania, O.D., F.A.A.O.

The uses of wavefront aberrometry for corneal laser vision correction are widely known. They include:

• Pre- and postoperative assessment of higher-order aberrations
• Counseling patients on conventional versus custom ablation
• Guiding custom LASIK to induce fewer higher-order aberrations.

One unique feature of Marco's 3-D Wave is its ability to analyze the natural lens.

Corneal vs. lens aberrations

If we take the total root mean square (RMS) value of the eye and subtract topography elevation's RMS value, we're left with the internal power (mostly from the lens) of the eye. And now we're using instruments to identify lens aberrations. This is an essential measurement for any patient who's thinking about LASIK and has a total RMS greater than 0.4 or 0.5. If a significant portion of that RMS total is coming from the lens, LASIK -- even custom LASIK -- will leave the patient with clinically significant higher-order aberrations.

The 3-D Wave differentiates corneal from lens aberrations, automatically calculating even complex cases where a cylinder and axis require vector analysis for accuracy. It gives us a final "blended" cylinder that we're looking at on that lens, offering results in diopters as well as RMS value.

The 3-D Wave also can detect early lens changes before they can be seen as cataracts with a slit lamp.

Managing IOLs and cataracts

The 3-D Wave assesses cataracts and clear lens symptoms, as well as pre- and postoperative capsular opacification. We implant a lot of multifocal IOLs in our practice. Whenever we start getting capsular fibrosis in the periphery -- even though we can't see it with a slit lamp -- the patient is saying, "My near vision is going."

What's happening is that peripheral fibrosis of the capsule causes the silicone or acrylic material to distort or bend. We don't see that with the slit lamp, of course, but the patient is losing vision. A monofocal or multifocal patient can lose two or three lines of distance and near vision. But after YAG laser capsulotomy, the lens reestablishes its optical integrity again. It's just another part of the post-care management of these patients.

Decentrations and other IOL issues present challenges, as well. If I move the corneal crosshair on the topography map a millimeter or two and it shows no power variation, while the corresponding registered crosshair on the lens map shows a 3.00D shift, there's a problem. The lens is either tilted or decentered. This feature of the 3-D Wave allows us to measure what's happening internally.

The 3-D Wave differentiates corneal from lens aberrations and calculates even complex cases requiring vector analysis.

Daily applications

Sometimes, refractive surgeons cannot achieve the best correction on the cornea, so we're seeing more lens surgeries. Once the lens is replaced, there is greater potential to begin to correct higher-order aberrations.

Intraocular lenses are made from several different materials, such as silicone and acrylic. New synthetic lens materials can be made with anterior prolate surfaces. With just a prolate shape, an IOL can reduce a lot of spherical aberration. Then, we can also begin to build higher-order aberration correction onto that surface as well.

For a practice that does a lot of post-LASIK care or cataract and clear lens work, the 3-D Wave is a useful device. It enables us to diagnose complex, previously undetected problems before surgery. We also can determine the causes of vision problems after surgery and help patients reach a higher level of satisfaction. The value of the 3-D Wave in this area is growing.