Abstract: Provided herein are alignment systems, computer-implemented systems and methods utilizing the same for planning an optimal surgical implantation of asymmetric optics into one or both eyes of a patient and/or correcting astigmatism thereof. The methods generally comprise obtaining reference data comprising the surgical procedure plan, the reference image and the corneal topographic measurements for the patient's eye, determining an optimal placement angle of an optical zone on the cornea from the reference data and placing the asymmetric optic into the eye to match the determined optimal placement angle. Particularly, software is configured to determine the rotational difference between a reference image and a live image of the patient's eye to determine a corrected axis angle for optimal placement angle which is superimposed over a display of the live image. Also provided are non-transitory computer-readable medium and computer program products embodied with software for planning the surgical implantation.

Abstract: Provided herein is a measurement tool for implantable non-spherical asymmetric optics comprising a viewable, rotatable angular caliper superimposable over an image of an eye. Also provided are methods for optimally placing non-spherical asymmetric optics in an eye of a patient and for correcting post-operative astigmatism in a patient having cataract surgery. The measurement tool is useful to plan the optimal correct surgical placement of a non-spherical asymmetric optic, e.g., a toric intraocular implant or a toric intraocular contact lens, in the eye. By superimposing the measurement tool over a corneal topographic image, an optimal positioning of the non-spherical asymmetric optic can be effected in an optical zone of interest. Correct placement or re-placement at least minimizes astigmatism in post-operative vision.

Abstract: A method and an instrument is provided for measuring aberration refraction of an eye with a first device for measuring the total aberration refraction of the eye and a second device for measuring the aberration refraction of the cornea of the eye. The component of aberration refraction caused by the lens caused by the lens is calculated using the measured total eye aberration refraction and the measured component of aberration refraction of the cornea mapped over the optical surfaces of the eye. Each component portion of the aberration refraction provides information usable for making appropriate corrective actions at the cornea, at the lens, or both as indicated by the mapped measurements and calculations.

Abstract: A method for analysis of the curvature of the surface of a cornea using a checkered placido comprises, projecting the image of the checkered placido onto a patient's cornea, detecting the image of the checkered placido reflected off of the cornea, detecting a plurality of nodal points from the reflected image, determining the mean curvature at a plurality of nodal points and analyzing the mean curvature at a plurality of nodal points in order to produce a graphic display of the estimated actual curvature of the cornea.

Abstract: A method for analysis of the curvature of the surface of a cornea using a checkered placido comprises, projecting the image of the checkered placido onto a patient's cornea, detecting the image of the checkered placido reflected off of the cornea, detecting a plurality of nodal points from the reflected image, determining the mean curvature at a plurality of nodal points and analyzing the mean curvature at a plurality of nodal points in order to produce a graphic display of the estimated actual curvature of the cornea.

Abstract: A method for analysis of the curvature of the surface of a cornea using a checkered placido comprises, projecting the image of the checkered placido onto a patient's cornea, detecting the image of the checkered placido reflected off of the cornea, detecting a plurality of nodal points from the reflected image, determining the mean curvature at a plurality of nodal points and analyzing the mean curvature at a plurality of nodal points in order to produce a graphic display of the estimated actual curvature of the cornea.

Abstract: A method for analysis of the curvature of the surface of a cornea using a checkered placido comprises, projecting the image of the checkered placido onto a patient's cornea, detecting the image of the checkered placido reflected off of the cornea, detecting a plurality of nodal points from the reflected image, determining the mean curvature at a plurality of nodal points and analyzing the mean curvature at a plurality of nodal points in order to produce a graphic display of the estimated actual curvature of the cornea.