Aberration-free intraocular lenses – What does this really mean?

Abstract

BackgroundSo-called aberration-free intraocular lenses (IOLs) are well established in modern cataract surgery. Usually, they are designed to perfectly refract a collimated light beam onto the focal point. MethodsWe show how much aberration can be expected with such an IOL in a convergent light beam such as that found anterior to the human cornea. Additionally, the aberration in a collimated beam is estimated for an IOL that has no aberrations in the convergent beam. The convergent beam is modelled as the pencil of rays corresponding to the spherical wavefront resulting from a typical corneal power of 43m−1. The IOLs are modelled as infinitely thin phase plates with 20m−1 optical power placed 5mm behind the cornea. Their aberrations are reported in terms of optical path length difference and longitudinal spherical aberration (LSA) of the marginal rays, as well as nominal spherical aberration (SA) calculated based on a Zernike representation of the wavefront-error at the corneal plane within a 6mm aperture. ResultsThe IOL designed to have no aberrations in a collimated light beam has an optical path length difference of −1.8μm, and LSA of 0.15m−1 in the convergent beam of a typical eye. The corresponding nominal SA is 0.065μm. The IOL designed to have no aberrations in a convergent light beam has an optical path length difference of 1.8μm, and LSA of −0.15m−1 in the collimated beam. ConclusionsAn IOL designed to have no aberrations in a collimated light beam will increase the SA of a patient's eye after implantation.