Abstract: An intraocular lens comprises an optical element adapted to be implanted within the capsular bag of a human eye. The optical element includes one or more internal layers formed by one or more planes that are moveable relative to one another in order to effect the power of the optical element.
Abstract: Disclosed are apparatus for delivering an accommodating intraocular lens to an eye. One apparatus includes an injector with a longitudinal injection passage that has a longitudinal injection axis. The apparatus also includes an accommodating intraocular lens having two interconnected viewing elements. The injector has a member for moving the lens into the injection passage of the apparatus. The accommodating intraocular lens has a longitudinal bisection axis and is initially disposed within the injector with the longitudinal bisection axis at an angle which is non-parallel and non-perpendicular to the injection axis. Additional apparatus and methods are disclosed as well.
Abstract: An intra-ocular artificial lens with variable optical strength, wherein the artificial lens comprises two optical elements which are movable relative to each other in a direction extending transversely of the optical axis, wherein the optical elements have a form such that in different relative positions they together have different optical strengths, wherein the movable optical elements are connected to positioning means which are adapted for coupling to the iris of the eye for the purpose of driving. This measure makes use of the fact that one or both of the optical elements can be displaced relative to each other through the driving of the natural orbicularis muscle of the iris in order to obtain an accommodating function.