Generally, an intraocular implant and methods for treating an ocular condition. In particular, an intraocular implant which implanted between an intraocular lens and the surface of the posterior capsule of the eye inhibits migration of residual lens epithelial cells after cataract surgery by providing structural barriers to reduce posterior capsule opacification of the eye.

A foldable intraocular lens for providing vision contains an optic body that includes an optical zone and a peripheral zone entirely surrounding the optical zone. The optic body has an anterior face, a substantially opposing posterior face, an optic edge, and an optical axis. The anterior face comprises a central face, a peripheral face, and a recessed annular face therebetween that is disposed posterior to the peripheral face. The intraocular lens further comprises at least one haptic that is integrally formed with the peripheral zone. The haptic comprises a distal posterior face, a proximal posterior face, and a step edge disposed at a boundary therebetween. The haptic further comprises a side edge disposed between the optic edge and the step edge. The proximal posterior face and the posterior face of the optic body form a continuous surface. An edge corner is formed by the intersection of the continuous surface with the optic edge, the side edge, and the step edge.

An intraocular micro-display (IOMD) implant includes an enclosure shaped for implantation into an eye, a micro-display, a base lens, and an adjustable lens. The micro-display is disposed in the enclosure and oriented to emit an image towards a retina of the eye. The base lens has a fixed optical power, is attached to the enclosure, and is positioned relative to the micro-display to reside in an optical path extending between the micro-display and the retina. The base lens is configured to apply the fixed optical power to the image. The adjustable lens is disposed in the optical path between the micro-display and the retina. The adjustable lens has an adjustable optical power that is adjustable in-situ to adjust a focal distance of the image projected by the IOMD implant after the IOMD implant has been implanted into the eye.