Patent application number | Description | Published |
20130085482 | Systems and Methods for Disruption of an Eye Lens - Systems and methods are provided for ablating a lens of an eye. An access incision is made through outer eye tissue to access the lens. A laser tool is inserted through the access incision. Electromagnetic energy is focused using the inserted laser tool to ablate a portion of the lens, where said ablation breaks the lens into a plurality of pieces for removal from the eye. | 04-04-2013 |
20130085484 | Methods for Treating Eye Conditions - Systems and methods are provided for reducing intraocular pressure in an eye. A perpendicular incision is made through a conjunctiva of the eye to access a trabecular meshwork of the eye. Electromagnetic energy is focused through the perpendicular incision to ablate a portion of the trabecular network, where said ablation creates a channel for outflow flow of fluid through a sclera venous sinus to reduce pressure within the eye. | 04-04-2013 |
20130085485 | Systems and Methods for Treating Pathological Skin Conditions Using a Laser Diode - In accordance with the teachings described herein, systems and methods are provided for treating pathological skin conditions. A method of removing fungus from a treatment area may include placing an energy delivery apparatus on the treatment area, and activating the medical laser to deliver electromagnetic energy over an exposure distance to the treatment area in order to cause a temperature of tissue in the treatment area to rise to within a fungal treatment temperature range. The energy delivery apparatus may be attachable to an energy emitting portion of a medical laser and may be configured to position the energy emitting portion at the exposure distance from a surface of the treatment area when the energy delivery apparatus is placed on the treatment area. | 04-04-2013 |
20130110101 | METHODS FOR TREATING EYE CONDITIONS | 05-02-2013 |
20140142663 | Eyelid Treatment Device - A handpiece tip includes an optical waveguide with a proximal input end for receiving electromagnetic energy and a distal output end for emitting electromagnetic energy. The tip has an eyeball engagement surface with a concave contour, and has an oppositely facing eyelid engagement surface with a convex contour. The distal output end of the waveguide is located at the eyelid engagement surface. | 05-22-2014 |
Patent application number | Description | Published |
20090062780 | METHODS FOR TREATING EYE CONDITIONS - Architectures and techniques for treating conditions of the eye, such as presbyopia, utilize sources of treatment energy, such as electromagnetic energy emitting devices, to implement non-corneal manipulations. According to these devices and methods, the sources of treatment energy are activated to direct energy onto parts of the eye, such as the conjunctiva and sclera, to treat presbyopia. The treatments can affect at least one property of the eye and enhance an accommodation of the eye. | 03-05-2009 |
20090118719 | METHODS FOR TREATING EYE CONDITIONS - Architectures and techniques for treating conditions of the eye, such as presbyopia, utilize sources of treatment energy, such as electromagnetic energy emitting devices, to implement non-corneal manipulations. According to these devices and methods, the sources of treatment energy are activated to direct energy onto parts of the eye, such as the conjunctiva and sclera, to treat presbyopia. The treatments can affect at least one property of the eye and enhance an accommodation of the eye. | 05-07-2009 |
20110192405 | METHODS FOR TREATING EYE CONDITIONS - Architectures and techniques for treating conditions of the eye, such as presbyopia, utilize sources of treatment energy, such as electromagnetic energy emitting devices, to implement non-corneal manipulations. According to these devices and methods, the sources of treatment energy are activated to direct energy onto parts of the eye, such as the conjunctiva and sclera, to treat presbyopia. The treatments can affect at least one property of the eye and enhance an accommodation of the eye. | 08-11-2011 |
20130144279 | Methods for Treating Hyperopia and Presbyopia via Laser Tunneling - A method for treating presbyopia utilizes an Erbium based, pulsed laser to sever sub-conjunctival strictures located within the scleral matrix of the eye. Introduction of treatment energy into the scleral matrix increases or facilitates an increase in accommodation, thereby mitigating the effects of presbyopia. The treatment energy can be directed into the scleral matrix to form tunnel ablations in and through the strictures of the scleral matrix. The tunnel ablations can enhance the accommodation of the patient's eye, enabling the eye to refocus at near distances while not losing its ability to focus at a distance. | 06-06-2013 |