The vision correction apparatus according to the present invention comprises: a cutting-off beam generating unit that generates a cutting-off beam for cutting off a part of the cornea for a vision correction surgery, a welding beam generating unit that generates a welding beam having a wavelength in a near-infrared band for welding a part of the cut cornea by irradiating the welding beam to the cut position of the cornea, a beam delivery unit that delivers the cutting-off beam and the welding beam to the cut position of the cornea, an image unit that obtains image information on the cut position of the cornea, and a control unit that controls an irradiation position of the welding beam based on the cut position information of the cornea obtained by the image unit.

The vision correction apparatus according to the present invention comprises: a cutting-off beam generating unit that generates a cutting-off beam for cutting off a part of the cornea for a vision correction surgery, a welding beam generating unit that generates a welding beam having a wavelength in a near-infrared band for welding a part of the cut cornea by irradiating the welding beam to the cut position of the cornea, a beam delivery unit that delivers the cutting-off beam and the welding beam to the cut position of the cornea, an image unit that obtains image information on the cut position of the cornea, and a control unit that controls an irradiation position of the welding beam based on the cut position information of the cornea obtained by the image unit.

This apparatus treats the lens capsule so as to increase accommodation of the eye. The treatment of the lens capsule may comprise treating a portion of the lens capsule so as to stiffen the treated portion and improve accommodation of the eye. The intermediate portion of the lens capsule may be located between an optically used central portion of the lens capsule and a peripheral portion of the lens capsule connected to zonules of the eye. The stiffened intermediate portion of the lens capsule can improve coupling of the peripheral portion of the lens capsule to the central portion of the lens capsule, such that an amount of accommodation of the optically used central portion of the lens is increased. As the force of the lens capsule to a lens disposed within the lens capsule is increased, the lens may comprise the natural lens of the eye or an artificial lens such as an accommodative IOL. The treatment of the eye to stiffen the intermediate portion may comprise application of one or more of an energy or a substance to the intermediate portion.

This apparatus treats the lens capsule so as to increase accommodation of the eye. The treatment of the lens capsule may comprise treating a portion of the lens capsule so as to stiffen the treated portion and improve accommodation of the eye. The intermediate portion of the lens capsule may be located between an optically used central portion of the lens capsule and a peripheral portion of the lens capsule connected to zonules of the eye. The stiffened intermediate portion of the lens capsule can improve coupling of the peripheral portion of the lens capsule to the central portion of the lens capsule, such that an amount of accommodation of the optically used central portion of the lens is increased. As the force of the lens capsule to a lens disposed within the lens capsule is increased, the lens may comprise the natural lens of the eye or an artificial lens such as an accommodative IOL. The treatment of the eye to stiffen the intermediate portion may comprise application of one or more of an energy or a substance to the intermediate portion.

The present invention relates to an ophthalmic knife and methods of its use for treatment of various conditions including eye diseases, such as glaucoma, using minimally invasive surgical techniques. The invention relates to a multi-blade device for cutting the tissues within the eye, for example, a trabecular meshwork (TM).

A microsurgical device and methods of its use can be used for treatment of various conditions including eye diseases, such as glaucoma, using minimally invasive surgical techniques. A dual-blade device can be used for cutting the trabecular meshwork (“TM”) in the eye. The device tip provides entry into the Schlemm's canal via its size (i.e., for example, 0.2-0.3 mm width) and configuration where a ramp elevates the TM away from the outer wall of the Schlemm's canal and guides the TM to first and second lateral elements for creating first and second incisions through the TM. The dimensions and configuration of the blade is such that an entire strip of TM is removed without leaving TM leaflets behind and without causing collateral damage to adjacent tissues.

A medical knife includes a blade plate and a blade portion formed at the distal end of the blade plate. Cutting edges extend from the distal end to the proximal end of the blade portion. Two blade surfaces in the width direction of a back-face portion of the blade portion are formed to gradually increase a distance between opposite side and cutting edge from one of the distal end and the proximal end to the other. The two blade surfaces in the width direction of a front-face portion of the blade portion are formed such that the distance between the opposite side and the cutting edge becomes equal in a zone corresponding to a distal end of the cutting edge and a zone corresponding to a proximal end of the cutting edge, over the entire cutting edge from the distal end to the proximal end of the cutting edge.

An apparatus to treat a cataract where the cataractous lens is pierced and the resulting opening is mechanically maintained using a lens system device such as a cylindrical lens, tubular lens, pinhole device, a stent or similar small diameter device, or where the device itself is the lens. The resulting passageway for visible light created in the cataractous lens allows light to better reach the retina, thus improving vision. This lens system device that can be placed into an in situ cataract provides for a much simpler surgical technique and reduces related pre and post operative procedures and potential complications. Intraocular lenses may also be used in concert with this invention. The apparatus and related methods can be applied to humans as well as animals.

A marker device for producing paint marks on an eye is disclosed. The marker device comprises a handling unit and a marker unit coupled to the handling unit for rotation with respect to the handling unit about a rotational axis. The marker unit includes at least two spaced apart marking surfaces and has a rotationally symmetric distribution of weight with respect to the rotational axis. A coupling between the handling unit and the marker unit permits the marker unit to rotate, due to gravity, relative to the handling unit into an equilibrium position.

An ophthalmic marking device is provided herein for marking a patient's eye. The device may include a handle and a tip with a tip element, a first portion of the tip element protruding from the tip to be exposed. The tip element is electrically conductive to resistively generate heat with electrical flow therethrough. A source of electrical power is associated with the device and electrically coupled to the tip element. The source of the electrical power and the tip element are configured to cause the first portion of the tip element to have a temperature in a range of 250° F.-450° F. Advantageously, the subject invention provides for a relatively low-cost device for marking a patient's eye and allows for creating a less traumatic marking on a patient's eye as compared to higher temperature electrocautery devices.