Abstract: Systems for treatment of glaucoma comprise an excimer laser, a plurality of fiber probes, and a processor. Each fiber probe is attachable to the excimer laser to treat a subject having glaucoma by delivering shots from the laser. The processor is configured to monitor and limit a variable number of shots delivered by each fiber probe, the number of shots delivered by each fiber probe programmable within a range. Methods of treating glaucoma include programming a fiber probe to deliver a number of shots from an excimer laser. The fiber probe is inserted into an eye of a subject having glaucoma and adjusted to a position transverse to Schlemm's canal in the eye. A plurality of shots is applied from the excimer laser source while the probe is in the transverse position, thereby treating glaucoma by creating a plurality of perforations in Schlemm's canal and/or the trabecular meshwork.

Abstract: The invention provides personalized laser probes for use in laser systems, wherein each laser probe includes one or more characteristics tailored to a given user to thereby improve performance of and outcome of a laser treatment procedure.

Abstract: A method of treating a subject having glaucoma comprises performing excimer laser trabeculostomy (ELT) on a subject having glaucoma and having previously undergone a failed treatment or a treatment that has been rendered ineffective by progression of the disease. In some examples, the failed treatment is a non-surgical treatment comprising administering medicated eye drops. In some examples, the failed treatment is a laser treatment or surgical treatment, such as a trabeculoplasty, iridotomy, iridectomy, trabeculectomy, trabeculotomy, goniotomy, surgical insertion of a shunt or implant, deep sclerectomy, viscocanalostomy, or a combination thereof.

Abstract: The invention provides an excimer laser system including a means for calibrating laser output to compensate for increased variation in laser optical fibers.

Abstract: The invention provides personalized laser probes for use in laser systems, wherein each laser probe includes one or more characteristics tailored to a given user to thereby improve performance of and outcome of a laser treatment procedure.

Abstract: The invention provides an excimer laser system including a means for authenticating laser probes to be used with the excimer laser system via radio-frequency identification techniques.

Abstract: Glaucoma patients suffer from increased intraocular pressure due to blocked fluid flow from the anterior chamber of the eye. Methods of the invention include inserting a probe into an eye of a subject having glaucoma, adjusting placement of the probe to a position transverse to Schlemm's canal in the eye, and applying a plurality of shots from an excimer laser source while the probe is in the transverse position, thereby treating glaucoma by creating a plurality of perforations in Schlemm's canal and/or the trabecular meshwork. By providing a laser probe at a position transverse to Schlemm's canal, energy from the laser is delivered to a greater amount of surface area than if the laser was arranged in a parallel or perpendicular position to Schlemm's canal, resulting in optimal formation of perforations. The perforations allow for drainage of fluid and increased outflow of aqueous humor in the eye.

Abstract: The invention provides an excimer laser system including a means for calibrating laser output to compensate for increased variation in laser optical fibers.

Abstract: The invention provides an excimer laser system including a means for authenticating laser probes to be used with the excimer laser system via radio-frequency identification techniques.

Abstract: Glaucoma patients suffer from increased intraocular pressure due to blocked fluid flow from the anterior chamber of the eye. Methods of the invention include inserting a probe into an eye of a subject having glaucoma, adjusting placement of the probe to a position transverse to Schlemm's canal in the eye, and applying a plurality of shots from an excimer laser source while the probe is in the transverse position, thereby treating glaucoma by creating a plurality of perforations in Schlemm's canal and/or the trabecular meshwork. By providing a laser probe at a position transverse to Schlemm's canal, energy from the laser is delivered to a greater amount of surface area than if the laser was arranged in a parallel or perpendicular position to Schlemm's canal, resulting in optimal formation of perforations. The perforations allow for drainage of fluid and increased outflow of aqueous humor in the eye.

Abstract: The invention relates to a communication module for connecting a lighting bus system (1) to a network (3) based on an internet protocol, wherein each component (2a . . . 2f) coupled to the bus system (1) is assigned a unique bus address, the communication module (4) is assigned a plurality of network addresses, at least one of the plurality of network addresses contains the bus address of a component (2a . . . 2f) and the communication module (4) is designed to receive data transmitted to the at least one network address from the network (3), to extract the bus address of the component (2a . . . 2f) from the network address, to determine data to be transmitted to the component (2a . . . 2f) by using the extracted bus address on the basis of the received data, and to transmit the determined data to the component (2a . . . 2f) having the extracted bus address via the bus system (1), or to provide the data generated autonomously by a component (2a . . .

Abstract: The invention provides an excimer laser system including a means for calibrating laser output to compensate for increased variation in laser optical fibers.

Abstract: Glaucoma patients suffer from increased intraocular pressure due to blocked fluid flow from the anterior chamber of the eye. Methods of the invention include inserting a probe into an eye of a subject having glaucoma, adjusting placement of the probe to a position transverse to Schlemm's canal in the eye, and applying a plurality of shots from an excimer laser source while the probe is in the transverse position, thereby treating glaucoma by creating a plurality of perforations in Schlemm's canal and/or the trabecular meshwork. By providing a laser probe at a position transverse to Schlemm's canal, energy from the laser is delivered to a greater amount of surface area than if the laser was arranged in a parallel or perpendicular position to Schlemm's canal, resulting in optimal formation of perforations. The perforations allow for drainage of fluid and increased outflow of aqueous humor in the eye.

Abstract: A method of treating a subject having glaucoma comprises performing excimer laser trabeculostomy (ELT) on a subject having glaucoma and having previously undergone a failed treatment or a treatment that has been rendered ineffective by progression of the disease. In some examples, the failed treatment is a non-surgical treatment comprising administering medicated eye drops. In some examples, the failed treatment is a laser treatment or surgical treatment, such as a trabeculoplasty, iridotomy, iridectomy, trabeculectomy, trabeculotomy, goniotomy, surgical insertion of a shunt or implant, deep sclerectomy, viscocanalostomy, or a combination thereof.

Abstract: The invention provides personalized laser probes for use in laser systems, wherein each laser probe includes one or more characteristics tailored to a given user to thereby improve performance of and outcome of a laser treatment procedure.

Abstract: The invention provides a laser system for performing an intraocular procedure. The laser system includes a single use, disposable laser probe configured to be coupled to a laser source and transmit laser energy from the laser source to a target tissue for treatment thereof. The laser probe comprises a laser transmitting member including a fiber optic core comprising a delivery tip for transmitting laser energy from the laser source to the target tissue during a procedure. The laser probe further includes a light emitting member providing illumination in a field of view proximate to the delivery tip of the fiber core, thereby providing a clear field of view for a surgeon during laser treatment of the target tissue.

Abstract: Systems for treatment of glaucoma comprise an excimer laser, a plurality of fiber probes, and a processor. Each fiber probe is attachable to the excimer laser to treat a subject having glaucoma by delivering shots from the laser. The processor is configured to monitor and limit a variable number of shots delivered by each fiber probe, the number of shots delivered by each fiber probe programmable within a range. Methods of treating glaucoma include programming a fiber probe to deliver a number of shots from an excimer laser. The fiber probe is inserted into an eye of a subject having glaucoma and adjusted to a position transverse to Schlemm's canal in the eye. A plurality of shots is applied from the excimer laser source while the probe is in the transverse position, thereby treating glaucoma by creating a plurality of perforations in Schlemm's canal and/or the trabecular meshwork.

Abstract: The invention provides an excimer laser system including a means for authenticating laser probes to be used with the excimer laser system via radio-frequency identification techniques.

Abstract: A method of treating a subject having one or more eye conditions comprises applying phacoemulsification ultrasound to a subject having one or more eye conditions; and applying an excimer laser to the subject to preventatively treat glaucoma. A system for treatment of one or more eye conditions in a subject comprises a phacoemulsification ultrasound system and an excimer laser system. The phaco system comprises an ultrasound probe for treating cataracts in the subject. The excimer laser system comprises an excimer laser and a fiber probe that applies pulsed shots of energy from the excimer laser to the eye to prophylactically treat glaucoma.

Abstract: The invention relates to a communication module for connecting a lighting bus system (1) to a network (3) based on an internet protocol, wherein each component (2a . . . 2f) coupled to the bus system (1) is assigned a unique bus address, the communication module (4) is assigned a plurality of network addresses, at least one of the plurality of network addresses contains the bus address of a component (2a . . . 2f) and the communication module (4) is designed to receive data transmitted to the at least one network address from the network (3), to extract the bus address of the component (2a . . . 2f) from the network address, to determine data to be transmitted to the component (2a . . . 2f) by using the extracted bus address on the basis of the received data, and to transmit the determined data to the component (2a . . . 2f) having the extracted bus address via the bus system (1), or to provide the data generated autonomously by a component (2a . . .