摘要:
The here described invention generally relates to systems for laser eye surgery. It certain embodiments it discloses systems to perform femtosecond eye surgery without docking between the laser delivery system and the patient's eye as well as certain laser delivery system configurations that allow integration of laser delivery systems into a surgical microscope in specific ways, as well as integration into a slit lamp system.
摘要:
Cataract surgery is in recent years more and more augmented and supported by the application of laser cuts in the eye tissue. Such laser systems are separate units from the phacoemulsification system units that are usually used for cataract extraction. The laser systems require the patient to be positioned under the laser unit and then being moved under the surgical microscope next to the phacoemulsification unit. The here described invention relates to systems combining several aspects of the laser system and the phacoemulsification system. In particular, this invention relates to combining at least some parts of the control system and the housing for both systems and thereby minimizing and optimizing setup time, operating room footprint, patient flow and cost. Furthermore the here disclosed invention relates to integrating the laser system under the surgical microscope and thereby significantly reducing the surgery setup and complexity.
摘要:
The invention relates to systems and methods for accessing tissue layers of the anterior chamber angle of an eye, targeting one or multiple treatment zones within the anterior angle area of the eye and delivering focused photodisruptive laser pulses with pulse durations
摘要:
Method, apparatus and systems for laser surgery as part of cataract surgery. The implementation thereof includes: A means to perform incisions in the cornea and inside the eye. In particular Limbal Relaxating Incisions and an anterior or posterior capsulotomy/capsulorhexis using a rapid fire sequence of photodisruptive laser pulses, placed to open the capsule for cataract surgery. The system and methods provides the means to target and direct the laser pulse sequence into the desired region of the eye without the need of a patient interface that is locked to the laser delivery system and holds the eye in a fixed position relative to the delivery system.