It is provided an intraocular lens insertion system that achieves a preferable insertion of an intraocular lens without using viscoelastic material in an eyeball. The intraocular lens insertion system includes an intraocular lens insertion apparatus configured to use a predetermined driving force to move an intraocular lens and insert the intraocular lens into an eyeball, an irrigating solution infusion apparatus configured to infuse irrigating solution into the eyeball, a driving source configured to deliver the predetermined driving force to the intraocular lens insertion apparatus, an irrigating solution source configured to deliver the irrigating solution to the irrigating solution infusion apparatus, and a switching unit configured to switch in a multistage manner a control of a delivery of the irrigating solution from the irrigating solution source to the irrigating solution infusion apparatus and a control of a delivery of the predetermined driving force from the driving source to the intraocular lens insertion apparatus.

A cartridge accommodates an intraocular lens and includes first and second cartridge parts pivotally moveable relative to each other to define an open state and a closed state. The first cartridge part has a first base element and a first plate-like wing extending from the first base element. The second cartridge part has a second base element and a second plate-like wing extending from the second base element. The first and second base elements conjointly define a receiving chamber for the lens when the first and second cartridge parts are in the closed state. A lubricant feed arrangement supplies a lubricant for the lens into the receiving chamber from outside of the cartridge when the cartridge is in the closed state. The lubricant feed arrangement includes a feed channel which is formed in one of the cartridge parts and opens into the receiving chamber.

Apparatuses, systems, and methods for implanting an intraocular lens into an eye are described. For example, an intraocular lens injector may include a passage formed in a distal end portion of the intraocular lens injector. The passage may define an interior surface, and one or more rails may be formed on the interior surface so as to displace an optic of an intraocular lens (IOL) being advanced through the passage towards a portion of the interior surface disposed opposite the one or more rails.

Spin-assisted layer-by-layer polymer coatings are used as the inner surface coating material for intraocular lens cartridges and facilitate the implantation of intraocular lenses.

A cartridge for an intraocular lens insertion device is disclosed. An example cartridge may include an intraocular lens insertion cartridge body having a distal end and a proximal end and configured to receive an intraocular lens for insertion into a patient's eye through an incision; the intraocular lens insertion cartridge body having an inner surface comprising at least one polymeric material having a hardness greater than about 50D and an elongation at break greater than about 150%; the inner surface of the intraocular lens insertion cartridge body defining an at least partially tapering insertion pathway disposed within the intraocular lens insertion cartridge body and extending from the proximal end to the distal end of the intraocular lens insertion cartridge body.

An intraocular lens insertion apparatus includes an apparatus body configured to include a housing member for housing an intraocular lens and an insertion tube member for ejecting the intraocular lens into an eyeball of a patient, a plunger configured to move in the apparatus body, and a hook member formed on the apparatus body for a user of the intraocular lens insertion apparatus to hook a finger when the user moves the plunger. The plunger is moved to a side of the insertion tube member, the intraocular lens housed in the housing member is pushed by a distal end of the plunger, and the intraocular lens is ejected from the insertion tube member, and a connecting member configured to connect an operability enhancing member for enhancing an operability of the plunger when the plunger is moved with the apparatus body is provided for the apparatus body.

An open, seal-less intraocular lens is disclosed herein. An example intraocular lens may include an annular substrate including an oil electrode disposed in or on an inner sidewall of the annular substrate to electrostatically manipulate a volume of electrowetting oil, an optical window coupled to the substrate, where a side of the optical window adjacent to the inner sidewall and the inner sidewall of the annular substrate define a region for constraining the volume of electrowetting oil, and a saline electrode coupled to the annular substrate, the saline electrode positionable within an aqueous humor of an eye upon implantation

Intraocular lens (IOL) insertion apparatus and methods of use are provided and described herein. An example IOL insertion apparatus may include a handpiece body having a distal tip, a deployment chamber having an opening at a distal end of the handpiece body, and a deployment system disposed within the handpiece body. The deployment system can include a deployment carriage movable between proximal and distal positions within the handpiece body and a deployment plunger with a proximal end secured to the deployment carriage and a distal end to engage a folded IOL. The insertion apparatus may further include a damping feature protruding from a wall of the deployment chamber or a portion of the deployment system. The first damping feature may be positioned and arranged to increase a resistance to movement of the deployment system along a portion of a path traveled thereby between the proximal and distal positions.

An apparatus for delivering an implant to an eye using hydraulic fluid flow or pressure. An implant may be stored, advanced, and delivered to an eye using hydraulic fluid stored in a sterile container through a hollow advancement plunger. The plunger may rigidly advance the implant to a sealed position in a first phase, and then the implant may be advanced into the eye via hydraulic pressure or fluid flow in a second phase.

Delivery devices for delivering an ophthalmic device into an eye. In some embodiments the delivery devices are adapted to deliver an intraocular lens into an eye.