Patent ID: 7744647

Claim:
An intraocular lens for providing accommodation for near vision in a human eye having an optical axis comprising an optic having a periphery, a flexible, elastic membrane in the form of an annulus extending entirely around the periphery of the optic and thus surrounding the optic such that the optic is substantially centrally disposed in said flexible membrane, the flexible membrane having an outer diameter of about 5.1 - 6 mm and an outermost peripheral edge, a relatively rigid annular rim being connected to the outermost peripheral edge of the flexible membrane and surrounding the flexible membrane in its entirety, at least one haptic having a proximal end and a distal end outwardly extending from the annular rim of the flexible membrane to fixate the intraocular lens implant in an optical substrate of the eye, the proximal end of the or each haptic being attached to the annular rim at a haptic membrane junction, the or each haptic extending outwardly away from the annular rim in an arcuate manner, the distal end of the or each haptic having a terminal portion comprising a free end spaced from the annular rim, the arrangement being such that there is an interval between the annular rim of the flexible membrane and the terminal portion, the or each haptic being arranged to contact a capsular bag or wall of an eye to be encapsulated in the interval between the annular rim of the flexible membrane and the terminal portion by fusion of anterior and posterior leaflets of a capsular bag remnant in the ocular substrate ensure fixation and stability of the or each haptic thereto, thereby rendering the or each haptic and the annular rim substantially rigid and immobile to translatory movement along the optical axis in response to contraction and relaxation of ciliary muscles upon attempted accommodation of the ocular substrate, wherein the flexible, elastic membrane is configured to facilitate anterior and posterior translatable movement of the optic in response to attempted accommodation by the ocular substrate of the eye, wherein the accommodation forces are transmitted to an effective implant diameter of about 5.1 - 6 mm thereby providing about a three fold increase in translation compared to an implant having non fixed haptics.