Avedro, Inc. Patent applications |
Patent application number | Title | Published |
20140343480 | SYSTEMS, METHODS, AND COMPOSITIONS FOR CROSS-LINKING - Various agents and additives for cross-linking treatments are identified in disclosed studies. The characteristics of the various agents and additives may be advantageously employed in formulations applied in cross-linking treatments of the eye. In some embodiments, riboflavin is combined with Iron(II) to enhance the cross-linking activity generated by the riboflavin. In other embodiments, cross-linking treatments employ an Iron(II) solution in combination with a hydrogen peroxide pre-soak. In yet other embodiments, 2,3-butanedione is employed to increase the efficacy of corneal cross-linking with a photosensitizer, such as riboflavin. In further embodiments, folic acid is employed in combination with a photosensitizer, such as riboflavin, to enhance cross-linking activity. In yet further embodiments, 2,3-butanedione, folic acid, a quinoxaline, a quinoline, dibucaine, Methotrexate, menadione, or a derivative thereof is applied as a cross-linking agent. | 11-20-2014 |
20140320819 | SYSTEMS AND METHODS FOR DELIVERING LIGHT IN EYE TREATMENTS - A system for applying a treatment to an eye includes a housing having a first end and a second end, a contact element having an open end and a closed end, and a light source disposed within the housing and configured to direct light toward the open end. The contact element is coupled to the first end of the housing at the closed end. The open end is configured to be positioned at an eye. | 10-30-2014 |
20140277431 | TREATMENTS OF EXTRACELLULAR MATRICES OF THE EYE - System and methods for a corrective eye procedure include at least one application device configured to be positioned at a selected area of an eye (e.g., equatorial sclera, posterior sclera, cornea, etc.). The at least one device includes at least one channel and at least one illumination guide. A cross-linking agent source is coupled to the at least one channel. An illumination source is coupled to the at least one illumination guide. The at least one device delivers the cross-linking agent to the selected area of the eye. The at least one device delivers photo-activating light from the illumination source to the selected area of the eye after the cross-linking agent has been delivered. The photo-activating light includes one or more doses necessary for activating the cross-linking agent and for activating TGF-β isoforms to improve health of extracellular matrices in the selected area of the eye. | 09-18-2014 |
20140276361 | SYSTEMS AND METHODS FOR TREATING GLAUCOMA - A glaucoma treatment system includes: a cannula body configured to be positioned in an area of Schlemm's canal; an illumination guide extending along the cannula body; at least one drug source coupled to the cannula body; a cross-linking agent source coupled to the cannula body; and an illumination source coupled to the illumination guide. The at least one drug source includes a drug that promotes outflow of aqueous humor through the trabecular meshwork and into Schlemm's canal. The cannula body delivers the drug from the at least one drug source to the area of Schlemm's canal, and in response to changes in the outflow of aqueous humor, delivers the cross-linking agent to the area of Schlemm's canal. The illumination guide delivers photo-activating light from the illumination source to the area of Schlemm's canal. The photo-activating light activates the cross-linking agent, thereby stabilizing changes in the area of Schlemm's canal. | 09-18-2014 |
20140113009 | CONTROLLED APPLICATION OF CROSS-LINKING AGENT - According to aspects of the present disclosure, a kit for transepithelial delivery of a cross-linking agent to a cornea includes a first vessel containing an initial formulation that includes a cross-linking agent and a first active ingredient configured to open corneal epithelial tight junctions when applied to a cornea and one or more second vessels each containing a respective secondary formulation that includes the cross-linking agent for application to the cornea after the initial formulation is applied to the cornea. | 04-24-2014 |
20140066835 | SYSTEMS AND METHODS FOR CORNEAL CROSS-LINKING WITH PULSED LIGHT - Systems and methods for treating an eye select locations for making incisions in areas of the cornea according to astigmatic keratotomy or radial keratotomy, make incisions in the selected areas of the cornea, apply a cross-linking agent to the selected areas of the cornea, and deliver photoactivating light from a light source to the selected areas of the cornea to initiate cross-linking activity in the selected areas of the cornea. | 03-06-2014 |
20140025049 | Eye Therapy System - Heat is generated in corneal fibrils in a cornea of an eye according to a selected pattern. The heat causes the corneal fibrils corresponding to the selected pattern to transition from a first structure to a second structure. The second structure provides a desired reshaping of the cornea. A cross-linking agent is then activated in the region of corneal fibrils according to the selected pattern. The cross-linking agent prevents the corneal fibrils from changing from the second structure. Thus, embodiments stabilize corneal tissue and improve its biomechanical strength after desired structural changes have been achieved in the corneal tissue. Accordingly, the embodiments help to preserve the desired reshaping of the cornea. | 01-23-2014 |
20140024997 | Eye Therapy System - Embodiments apply a cross-linking agent to a region of corneal tissue. The cross-linking agent improves the ability of the corneal tissue to resist undesired structural changes. For example, the cross-linking agent may be Riboflavin or Rose Bengal, and the initiating element may be photoactivating light, such as ultraviolet (UV) light. In these embodiments, the photoactivating light initiates cross-linking activity by irradiating the applied cross-linking agent to release reactive oxygen radicals in the corneal tissue. The cross-linking agent acts as a sensitizer to convert O | 01-23-2014 |
20130267528 | TRANS-EPITHELIAL OSMOTIC COLLYRIUM FOR THE TREATMENT OF KERATOCONUS - Trans-epithelial osmotic collyrium for the treatment of keratoconus by corneal cross-linking with UV rays, of the type consisting of a riboflavin-based solution and an absorption enhancement adjuvant consisting of benzalkonium chloryde (BAC). The solution has a hypoosmolarity degree ranging between −70% and −30% over an isotonic solution and contains a BAC concentration accordingly ranging between 0.005% and 0.035%. | 10-10-2013 |
20130245536 | SYSTEMS AND METHODS FOR CORNEAL CROSS-LINKING WITH PULSED LIGHT - A method for controlling activation of a cross-linking agent applied to an eye includes applying the cross-linking agent to a selected region of a cornea of the eye and initiating cross-linking activity in the selected region by activating the cross-linking agent with pulsed light illumination. The pulsed light illumination has a selectable wavelength, irradiance, dose, and on/off duty cycle. The wavelength, the irradiance, the dose, and the on/off duty cycle are adjusted in response to a determination of photochemical kinetic pathways for cross-linking activity and to control photochemical efficiency, depth of cross-linking, and density of cross-linking. | 09-19-2013 |
20130131664 | Eye Therapy System - A system for applying therapy to an eye selectively applies coolant to the corneal surface to minimize heat-related damage to the corneal surface during thermokeratoplasty. Embodiments may include an energy source, a conducting element, a coolant supply, and a coolant delivery system. The conducting element is operably connected to the energy source and extends from a proximal end to a distal end. The conducting element directs energy from the energy source to the distal end, which is positionable at the eye. The coolant delivery system is in communication with the coolant supply and is operable to deliver a micro-controlled pulse of coolant to the distal end. | 05-23-2013 |
20130085370 | SYSTEMS AND METHODS FOR APPLYING AND MONITORING EYE THERAPY - In systems and methods for generating cross-linking activity in an eye, a feedback system monitors a biomechanical strength of the eye in response to the photoactivation of a cross-linking agent applied to an eye. The feedback system includes a perturbation system that applies a force to the eye and a characterization system that determines an effect of the force on the eye. The effect of the force provides an indicator of the biomechanical strength of the eye. The characterization system determines the effect of the force on the eye by measuring an amount of deformation caused by the force or a rate of recovery from the deformation. | 04-04-2013 |
20130060187 | SYSTEMS AND METHODS FOR CORNEAL CROSS-LINKING WITH PULSED LIGHT - A method for controlling activation of Riboflavin applied to an eye includes applying the Riboflavin to a selected region of a cornea of the eye and initiating cross-linking activity in the selected region by activating the Riboflavin with pulsed light illumination. The pulsed light illumination has an irradiance, dose, and an on/off duty cycle. The irradiance, the dose, and the on/off duty cycle are adjusted in response to a determination of photochemical kinetic pathways for Riboflavin cross-linking activity and to control photochemical efficiency. | 03-07-2013 |
20120310083 | SYSTEMS AND METHODS FOR MONITORING TIME BASED PHOTO ACTIVE AGENT DELIVERY OR PHOTO ACTIVE MARKER PRESENCE - Devices and approaches for monitoring time based photo active agent delivery or photo active marker presence in an eye. A monitoring system is provided for measuring the presence of a photo active marker by illuminating the eye so as to excite the photo-active marker and then observing characteristic emission from the photo active marker. Example systems incorporate Scheimpflug optical systems or slit lamp optical systems to observe cross sectional images of an eye to monitor instantaneous distribution, diffusion pattern, and rate of uptake of a photo active agent applied to an eye. Systems and methods further allow for utilizing the monitored distribution of photo active agent in the eye as feedback for a cross-linking system. | 12-06-2012 |
20120303008 | SYSTEMS AND METHODS FOR RESHAPING AN EYE FEATURE - Systems and methods include a cutting instrument that creates incisions in selected areas of the cornea; an eye therapy system that applies reshaping forces to the cornea; and a controller that determines the selected areas of the cornea for the incisions and the reshaping forces from the eye therapy system, such that the reshaping forces and the incisions combine to achieve corrective reshaping of the cornea. Other systems and methods include measuring an eye to determine a required amount of reshaping of a cornea; determining one or more doses of cross-linking agent and one or more corresponding doses of photoactivating light according to the required amount of reshaping; applying the cross-linking agent to the cornea; and delivering, from a light source, the photoactivating light to the area of the eye, the photoactivating light combining with the cross-linking agent to induce the corrective reshaping of the cornea. | 11-29-2012 |
20120289886 | CONTROLLED APPLICATION OF CROSS-LINKING AGENT - Devices and approaches for activating cross-linking within at least one eye component of an eye to stabilize and strengthen corneal tissue or other tissues of the eye. Cross-linking is activated within the at least one eye component by conveying a cross-linking agent to regions of the at least one eye component and then activating the cross-linking agent by delivering an initiating element to the at least one eye component. Approaches disclosed herein allow for precisely controlling the three dimensional region of strengthened tissue by conveying the cross-linking agent to regions of the at least one eye component. Approaches allow for conveying the cross-linking agent to a depth below the corneal surface such that cross-linking is activated below the corneal surface. | 11-15-2012 |
20120283621 | STERILIZING APPLICATION OF CROSS-LINKING AGENT - A method for treating an eye includes applying, to an outer protective layer of an area of an eye, one or more initial doses of a cross-linking agent that acts as a photosensitizer. The method also includes delivering, from a light source, one or more initial doses of ultraviolet light to the area of the eye. The cross-linking agent increases absorption of the ultraviolet light by the area of the eye, and the absorption of the ultraviolet light sterilizes the area of the eye before the outer protective layer is penetrated. Additionally, the method includes penetrating the outer protective layer of the eye to provide access to an area below the outer protective layer. Moreover, the method includes applying a treatment to the eye via the access provided by cutting the outer protective layer. In some embodiments, the cross-linking agent is Riboflavin, and the treatment is LASIK surgery. | 11-08-2012 |
20120215155 | CONTROLLED CROSS-LINKING INITIATION AND CORNEAL TOPOGRAPHY FEEDBACK SYSTEMS FOR DIRECTING CROSS-LINKING - Devices and approaches for activating cross-linking within corneal tissue to stabilize and strengthen the corneal tissue following an eye therapy treatment. A feedback system is provided to acquire measurements and pass feedback information to a controller. The feedback system may include an interferometer system, a corneal polarimetry system, or other configurations for monitoring cross-linking activity within the cornea. The controller is adapted to analyze the feedback information and adjust treatment to the eye based on the information. Aspects of the feedback system may also be used to monitor and diagnose features of the eye. Methods of activating cross-linking according to information provided by a feedback system in order to improve accuracy and safety of a cross-linking therapy are also provided. | 08-23-2012 |
20110288466 | SYSTEMS AND METHODS FOR ACTIVATING CROSS-LINKING IN AN EYE - Devices and approaches for activating cross-linking within at least one eye component of an eye to stabilize and strengthen corneal tissue or other tissues of the eye. Cross-linking is activated within the at least one eye component by conveying a cross-linking agent to regions of the at least one eye component and then activating the cross-linking agent by delivering an initiating element to the at least one eye component. Approaches disclosed herein allow for precisely controlling the three dimensional region of strengthened tissue by conveying the cross-linking agent to regions of the at least one eye component. Approaches allow for conveying the cross-linking agent to a depth below the corneal surface such that cross-linking is activated below the corneal surface. | 11-24-2011 |
20110237999 | SYSTEMS AND METHODS FOR APPLYING AND MONITORING EYE THERAPY - Devices and approaches for activating cross-linking within corneal tissue to stabilize and strengthen the corneal tissue following an eye therapy treatment. A feedback system is provided to acquire measurements and pass feedback information to a controller. The feedback system may include an interferometer system, a corneal polarimetry system, or other configurations for monitoring cross-linking activity within the cornea. The controller is adapted to analyze the feedback information and adjust treatment to the eye based on the information. Aspects of the feedback system may also be used to monitor and diagnose features of the eye | 09-29-2011 |
20110118716 | System and Method for Stabilizing Corneal Tissue After Treatment - Systems and methods stabilize corneal tissue after treatment of the corneal tissue. For example, thermokeratoplasty may be applied to the corneal tissue to address disorders associated with abnormal shaping of the cornea. To stabilize the desired structural changes caused by the treatment, embodiments apply ophthalmic formulations that help to inhibit wound healing. Wound healing may occur in response to the application of the treatment and may produce further structural changes that mitigate or alter the desired effects of the treatment. | 05-19-2011 |
20110118654 | Eye Therapy - Embodiments apply a cross-linking agent to a region of corneal tissue. The cross-linking agent improves the ability of the corneal tissue to resist undesired structural changes. For example, the cross-linking agent may be Riboflavin or Rose Bengal, and the initiating element may be photoactivating light, such as ultraviolet (UV) light. In these embodiments, the photoactivating light initiates cross-linking activity by irradiating the applied cross-linking agent to release reactive oxygen radicals in the corneal tissue. The cross-linking agent acts as a sensitizer to convert O | 05-19-2011 |
20100280509 | Eye Therapy System - An electrical energy applicator directs electrical energy from the electrical energy source to a distal end, which positionable at a surface of an eye. The energy conducting applicator includes a first conductor and a second conductor separated by a gap. The first conductor has a first contact surface at the distal end, and the second conductor has a second contact surface at the distal end. The first conductor and/or the second conductor has a length that is adjustable by a biasing element. The first contact surface of the first conductor is movable relative to the second contact surface of the second conductor. The first contact surface and the second contact surface are adjustably positionable simultaneously against the surface of the eye to deliver energy to the eye according to a pattern defined by the first contact surface, the second contact surface, and the gap. | 11-04-2010 |
20100185192 | EYE THERAPY SYSTEM - Systems and methods improve operation of an applicator that delivers heat-generating energy to an eye as a part of an eye therapy. For example, reflected power may be measured to determine whether sufficient contact has been established between the applicator and the eye for accurate and precise delivery of energy to the eye. In addition, at least one of forward and reflected power may be measured to monitor the application of coolant pulses that control the generation of heat in the eye when the applicator delivers energy to the eye. Further, the forward and reflected power may be measured to determine an efficiency of energy transfer or an impedance mismatch. Based on the efficiency of energy transfer or the impedance mismatch, an adjustable parameter of a tuning element may be modified. | 07-22-2010 |
20100094280 | EYE THERAPY SYSTEM - A system includes a conducting element that conducts energy from an energy source to apply therapy to an eye. The system includes a covering configured to be removably attached to the conducting element. The covering has an interface surface that is positionable at an eye. At least a portion of the interface surface includes one or more dielectric materials. Energy is deliverable to the eye through the interface surface. In one aspect, the covering provides an electrical insulator to minimize the concentration of electrical current in the area of contact with the eye. In another aspect, the covering allows the eye to be cooled during the application of energy without directly applying coolant to the eye. In another aspect, the covering includes a dielectric layer that may provide varying impedances that allow different patterns for energy delivery. In another aspect, the sheath promotes hygienic use of the conducting element. | 04-15-2010 |
20100076423 | EYE THERAPY SYSTEM - The cornea is reshaped in multiple steps according to varying amounts of energy in varying patterns and/or at varying locations to achieve a customized reshaping of the cornea to address the specific needs of an individual patient. The varying amounts of energy may be applied via one or more conducting elements, which include an outer conductor and an inner conductor disposed within the outer conductor, a distal end of the outer conductor and the inner conductor defining the varying patterns. For example, one step may form a substantially circular lesion to flatten a first portion of the cornea to treat presbyopia, while another step may form a substantially circular and concentric lesion having a greater diameter to steepen a second portion of the cornea to treat hyperopia. Advantageously, continuous transitional regions are formed relative to the reshaped portions to provide vision for intermediate distances. | 03-25-2010 |
20090024117 | Eye therapy system - A system for applying therapy to an eye selectively applies coolant to the corneal surface to minimize heat-related damage to the corneal surface during thermokeratoplasty. Embodiments may include an energy source, a conducting element, a coolant supply, and at least one coolant delivery element. The conducting element is operably connected to the energy source and extends from a proximal end to a distal end. The conducting element directs energy from the energy source to the distal end, which is positionable at the eye. The coolant delivery elements are in communication with the coolant supply and are operable to deliver a micro-controlled pulse of coolant to the distal end. | 01-22-2009 |