ASCRS launches Hill-RBF calculator for IOL power calculation in cataract surgery

The American Society of Cataract and Refractive Surgery has launched the Hill-RBF calculator, a device for calculating IOL power in cataract surgery, according to a press release from the organization.

Perspective from Kerry D. Solomon, MD

The calculator features radial basis function IOL power selection that “performs best where it has the most data. By this method, short, normal and long eyes are simply viewed as a pattern,” the release said. The radial basis function IOL power selection also uses a validating boundary model, which indicates to the user when the calculator is performing within a defined area of accuracy; the calculator also gives an out-of-bounds statement if it is “naïve” to the measurements entered.

Warren E. Hill, MD, FACS

“This completely new approach has the ability to learn tasks based solely on data, independent of what is previously known. It was our objective to develop something better suited to the complex, nonlinear relationships of the various parts of the human eye,” Warren E. Hill, MD, FACS, project leader of the Hill-RBF calculator, said in the release.

The calculator has been optimized for biconvex IOLs from +6 D to +30 D and will be expanded to +40 D. This approach is an ongoing project and will be continuously updated, the release said.

The calculator is a collaboration among 24 surgeons in 13 countries, Haag-Streit and MathWorks. It has been used in the Haag-Streit Lenstar for all axial measurements and high-density autokeratometry.

“The fundamental premise of this project is to increase patient safety and physician confidence, and reduce the many burdens associated with a postoperative refractive surprise,” Hill said.

Perspective

Kerry D. Solomon, MD

I found that the Hill-RBF formula has allowed us to provide superb results. We have been beta testing the formula for some time and have had results that I have just not seen before with cataract surgery. The Hill-RBF formula has allowed us to achieve higher than a 90% chance in being within 0.5 D, which can occur with other formulas, but we often have to optimize and customize certain factors. I have been using the formula pretty routinely for months. The other thing I like about the formula is that it provides some guidance whether it is “in bounds” or “out of bounds,” meaning if the measurement seems out of bounds for the formula, it tells you to repeat or to use another formula because this one is not optimally going to give you the right outcome. I like knowing that in advance. When I do IOL calculations, we use the Holladay II formula, the Barrett formula, the Olsen formula, the Haigis formula and the new RBF formula from Dr. Hill. I have optimized Holladay II, Barrett, Olsen and Haigis and have used a basic starting point for the RBF that Dr. Hill provided for the lenses that I am using, which have been spectacular, but I still like to use multiple formulas in case I get an out-of-bounds measurement. My next go-to measurement tends to be the Barrett formula for spherical outcomes. For cylinder and astigmatism, my preference is the Barrett formula, and I use the new Doug Koch formula as well.

Kerry D. Solomon, MD

OSN Refractive Surgery Board Member

Disclosures: Solomon reports no relevant financial disclosures.