An intraocular lens (IOL) injectors and associated methods are described. The IOL injectors may include a collapsible portion configured to reduce the length of the IOL injector when the collapsible portion is altered from an uncollapsed configuration to a collapsed configuration. In some instances, an IOL may be advanced from a storage location to a dwell location when the collapsible portion is altered from the uncollapsed configuration to the collapsed configuration. The IOL injectors may also include a combination push and screw drive.

An IOL injector having an automatic plunger advancement driver is described. In addition, an IOL injector having a spring-assisted driving mechanism and a spring damping mechanism is described.

An intraocular lens (IOL) injector assembly comprising an injector body having a shuttle reception opening defined at least in part by a first sidewall and a second sidewall, and a shuttle comprising a first wing including a first portion of a shuttle lumen wall and a second wing including a second portion of a shuttle lumen wall. The first wing and the second wing are coupled together by a hinge. When in a closed state, the first portion of the shuttle lumen wall and the second portion of the shuttle lumen wall define at least a portion of an operative shuttle lumen. The shuttle and sidewalls are configured such that the first wing and the second wing interfere with the first sidewall and the second sidewall, respectively, as the shuttle passes through the shuttle reception opening, such that the closed state of the shuttle is attained.

Provided is an injector assembly, comprising: —an injector, which has a plunger and a cannula and is designed to move an intraocular lens through the cannula by means of a translational motion of the plunger; —a magnetic coupling; and—a drive unit, which has a first coupling half of the magnetic coupling, a motor, which is designed to drive the first coupling half into a first rotational motion, and a housing, within which the first coupling half and the motor are encapsulated and which has an annular housing portion, which delimits a channel having a circular cross-section. The injector has a second coupling half of the magnetic coupling, and the injector and the second coupling half are arranged in the channel. The first coupling half is arranged around the annular housing portion and is thus designed to perform the first rotational motion around the annular housing portion and thus to drive the second coupling half into a second rotational motion by means of a magnetic field of the magnetic coupling, which magnetic field penetrates the annular housing portion. The injector is designed to convert the second rotational motion into the translational motion of the plunger.

An intraocular lens injector includes a lens holder holding an intraocular lens which has an optic and a haptic extending in a curved shape from the optic, a plunger which comes into contact with the intraocular lens and pushes out the intraocular lens, and a device body in which the plunger is inserted projectably/retractably and in which the lens holder can be attached in an intersecting direction relative to an axis of the plunger. The lens holder includes a position regulating portion for regulating a disposing position of the haptic in such a manner that a distal end of the plunger at an initial position before the plunger is pushed in and the optic may be laid on a common plane with a portion of the haptic lying on top of the plunger.

An intraocular lens is disclosed that includes an optic body with a projection extending radially outwards from a peripheral surface of the optic body. The projection comprises a haptic contact surface facing radially outward, wherein the entire haptic contact surface is a flat surface. A haptic having a free distal end and a proximal portion is secured to the projection along the haptic contact surface, wherein the projection and the proximal portion interface at a butt joint without the haptic extending into the projection and without the projection extending into the haptic. The haptic also includes a haptic fluid chamber.

Provided is a configuration in which when a positioning member is removed from an intraocular lens insertion tool, restrictions on the position and posture of an intraocular lens can be lifted smoothly without exerting influence on the intraocular lens and the insertion tool itself. The present invention is provided with: an approximately cylindrical nozzle body (10); a stage part which is provided in the nozzle body (10) and houses an intraocular lens; a plunger which presses the intraocular lens housed in the stage part by the forward end thereof to discharge the intraocular lens into an eyeball; and a positioning member (60) which restricts the initial position and posture of the intraocular lens by being mounted to the stage part from the outside. Rib sections (12g) are formed so as to extend in the front-back direction of the nozzle body (10) at the outer periphery of the stage part, and side wall parts (51, 51) and rotation prevention wall parts (59, 59) are formed in the positioning member (60) so as to sandwich the rib sections (12g, 12g) from both sides, thereby restricting the rotation of the positioning member (60) with respect to the stage part.

The purpose of the present invention is to provide an intraocular lens injector with which the tip side of a plunger can be finely formed while ensuring rigidity, and with which the occurrence of shaft deviation during contact with an intraocular lens can be effectively inhibited. A plunger (3) of this intraocular lens injector (1) is provided with: a tip-side shaft part (35) provided with an L-shaped section (36); a central shaft part (33) which is formed flat, and which is wider than the tip-side shaft part (35); and a part (40) to be restricted which is formed from the tip-side shaft part (35) to the central shaft part (33), and which protrudes from the flat surface at the central shaft part (33). Furthermore, an opening (70) in a main body (2) is provided with: a central opening (71) which is open in accordance with the shape of the central shaft part (33); and a restriction part (72) formed so as to protrude from the end surface of the central opening (71), in the thickness direction of the central shaft part (33), in accordance with the shape of the part (40) to be restricted. The part (40) to be restricted has a length in the axial direction which is set such that the part (40) to be restricted is restricted by the restriction part (72) in an interval from an initial position before the L-shaped section (36) begins to be in contact with a second lens support part (93) of an intraocular lens (90), to a position in which the L-shaped section (36) is in contact with the second lens support part (93).

A rear-loaded injector cartridge for an intraocular lens (IOL) having a proximal opening that provides a haptic slot. The haptic slot receives a leading haptic of an IOL loaded therein, and temporarily retains the leading haptic while the optic of the IOL is inserted into a holding area of the cartridge. As the optic passes by, the leading haptic folds over the top of the optic, on its anterior side. The length of the haptic retention slot is sufficient to maintain the leading haptic in its anteriorly folded position while the IOL remains in holding area, typically while the cartridge is mated with a handpiece of the injector. The cartridge also has a rear or proximal cut out which advantageously keys with a similarly-sized rail on the handpiece so that the cartridge cannot be inserted in the wrong way.

A device 100 for delivering intraocular lens into an incision on an eye of a patient comprises a tubular member 130 defined by a hollow elongate passageway 131, a front 132 and a back through opening 133 of the passageway 131; a secured nozzle 150 having an expanded base 152, which is mounted to the front through opening 132 of the tubular member 130, tapering towards a pointed end 153 fashioned to be inserted into the incision, the secured nozzle 150 enclosing a lumen 154 substantially tapered from the base 152 to the pointed end 153 and aligned with the passageway 131 that the lens is disposed within the lumen 154 to be readily delivered; an elongate probe 110, at least partially housed within the passageway 131, having a bifurcated tip 115 which is configured to telescopically slide out from the pointed end 153 of the secured nozzle 150 pushing the disposed lens into the eye; and a plunger assembly 120 having a shaft 126 inserted into and moveable within the passageway 131 to anteriorly engage with the probe 110 to move the probe 110 in relative to the tubular member 130, wherein the bifurcated tip 115 forks into a first 111 and second prongs 112, which are irregular in size, forming a substantially U-shaped or V-shaped construct thereof for manipulating a configuration and/or and orientation of the delivered lens in the eye.