An ophthalmic laser treatment delivers patterned laser energy to an eye of a patient. A pattern-scanning laser device of the laser treatment system includes a laser module, a scanning module and delivery optics. The laser module generates laser energy (e.g. via a green laser diode), which is directed to the scanning module via a fiber optic cable. The scanning module produces the patterned laser energy by reflecting the laser energy into the delivery optics at different angles via a dielectric MEMS scanning mirror. The delivery optics includes an F-theta lens, a motorized and wirelessly-controlled spot-size selector module, and a focusing lens. A mobile computing device receives parameter information via a graphical user interface or voice control and sends the parameter information to the pattern-scanning laser device. In response to receiving activation signals from an activation unit, the pattern-scanning laser device emits the patterned laser energy based on the parameter information.

A system and process for treating retinal diseases includes passing a plurality of radiant beams, i.e., laser light beams, through an optical lens or mask to optically shape the beams. The shaped beams are applied to at least a portion of the retina. Due to the selected parameters of the beamspulse length, power and duty cyclethe beams can be applied to substantially the entire retina, including the fovea, without damaging retinal or foveal tissue, while still attaining the benefits of retinal phototherapy or photostimulation.

Embodiments of the claimed invention are directed to the treatment of glaucoma (or conditions of elevated intraocular pressure) using a novel ab interno trabeculotomy procedure that uses a flexible device. At least one advantage of the present method is that it does not require a conjunctival or scleral incision, which in turn improves patient recovery time and healing.

A process for safely providing retinal phototherapy includes generating first and second light beams of a different wavelength. The first and second light beams are applied to a retinal pigment epithelium (RPE) and choroid of an eye. The amount of light reflected from the eye from the first light beam and the second light beam is measured, such as using a reflectometer. A level or concentration of the melanin within the eye is calculated using the measured amount of light reflected from the eye from the first and second light beams. When the content or density of melanin in the RPE exceeds a predetermined amount, one or more treatment parameters of the retinal phototherapy is adjusted.

Methods for preventing and/or treating ocular diseases such as dry age-related macular degeneration, and/or improving or maintaining a retinal function, include administering non-invasive photobiomodulation light therapy in the context of a prior PBM treatment, on the basis of a patient pre-treatment characteristic. In some embodiments, methods comprise administering PBM therapy to subjects prior to onset of, or in early stages of, dry age-related macular degeneration.

A system, technique and material composition for use in correction of eye condition are disclosed. The system comprising a processing utility and an etching utility. The processing utility comprises: correction pattern module configured for providing a selected two-dimensional pattern in according with input data indicative of vision impermanent of a user, and for generating operational instructions for forming said selected two-dimensional pattern on the surface of the cornea by said etching utility. The etching utility is configured to etching the selected patter on surface of the cornea of a user. The material composition comprises aqueous solution comprising a plurality of nanoparticles, said nanoparticles comprising maghemite nanoparticles wrapped by biocompatible protein chains. The material composition may be used as eye drops thereby allowing the nanoparticles to occupy etched region on the cornea, thereby maintaining correction of eye condition

a laser-based ophthalmological treatment system(200) may include a device housing(202), a head fixation assembly(206), and an interactive display device(324, 424). The head fixation assembly(206) may be configured to position and to retain a head of a patient relative to the device housing(202). The interactive display device(324,424) may be positioned in an optical path(304,404). The interactive display device(324,424) may be fixed relative to the head fixation assembly(206). The interactive display device(324,424) may be configured to display a simulation scene(504) that may include a target image(502) into a visual field of the patient. The target image(502) may be displayed in the simulation scene(504) such that optical focus on the target image(502) by the patient aligns a portion of a fundus(130) of an eye of the patient in the optical path(304,404).

The planning device for determining control data for a treatment device enables surgical tattooing of the cornea of an eye. Based on the measurement data and functional data introduced, a substantially annular surface is defined, which is located inside the cornea and which is delimited by a circular internal edge with an interior diameter and by a circular external edge with an exterior diameter. The annular surface has a distance and an incline with regard to the surface of the cornea, and for this annular surface, a set of control data for controlling the laser device is generated which defines a pattern of target points in the cornea with perforation zones partially or completely intersecting. Upon application of the pulsed laser beam, the tissue of the cornea is cut, and the external edge of the annular surface has a constant distance relative to the external edge of the iris.

A method for forming an incision in an eye, the method including performing a first pass of a first laser beam along a path within an eye, wherein after completion of the first pass there exists a residual uncut layer at an anterior surface of a cornea of the eye. The method further including performing a second pass of a second laser beam only along a portion of the path that contains the residual uncut layer, wherein after completion of the second pass, the residual uncut layer is transformed into a full complete through surface incision.

A system to provide high pressure air to the eye during ocular surgery. The system has an air tube, a piece 1, a piece 2 and a plurality of adjustable aperture. Piece 1 has a plurality of piece 1 air feeding tubes, a piece 1 adjustable apertures and a plurality of air ejecting nozzles. Piece 2 comprises a piece 2 air feeding tubes, a piece 2 adjustable aperture, a diameter controlled adjustable aperture and a plurality of valves. Both piece 1 and piece 2 are used separately or simultaneously. Piece 1 is used laterally and piece 2 is used vertically. A humidifies high pressure air is provided to piece 1 and piece 2 air feeding tubes by an air source. The high pressure air provided is humidified controlled high pressure air.