Magnetically adjustable intraocular lens

Purpose: To provide a noninvasive, magnetic adjustment mechanism to the repeatedly and reversibly adjustable, variable‐focus intraocular lens (IOL). Setting: University of Missouri‐Rolla, Rolla, and Eggleston Adjustable Lens, St. Louis, Missouri, USA. Methods: Mechanically adjustable IOLs have been fabricated and tested. Samarium and cobalt rare‐earth magnets have been incorporated into the poly(methyl methacrylate) (PMMA) optic of these adjustable lenses. The stability of samarium and cobalt in the PMMA matrix was examined with leaching studies. Operational force testing of the magnetic optics with emphasis on the rotational forces of adjustment was done. Results: Prototype optics incorporating rare‐earth magnetic inserts were consistently produced. After 32 days in solution, samarium and cobalt concentration reached a maximum of 5 ppm. Operational force measurements indicate that successful adjustments of this lens can be made using external magnetic fields with rotational torques in excess of 0.6 ounce inch produced. Actual lenses were remotely adjusted using magnetic fields. Conclusions: The magnetically adjustable version of this IOL is a viable and promising means of handling the common issues of postoperative refractive errors without the requirement of additional surgery. The repeatedly adjustable mechanism of this lens also holds promise for the developing eyes of pediatric patients and the changing needs of all patients.