Abstract: System and method for making incisions in eye tissue at different depths. The system and method focuses light, possibly in a pattern, at various focal points which are at various depths within the eye tissue. A segmented lens can be used to create multiple focal points simultaneously. Optimal incisions can be achieved by sequentially or simultaneously focusing lights at different depths, creating an expanded column of plasma, and creating a beam with an elongated waist.
Type:
Grant
Filed:
January 9, 2006
Date of Patent:
March 12, 2013
Assignee:
Optimedica Corporation
Inventors:
Daniel V. Palankar, Mark S. Blumenkranz, Dan E. Andersen, David H. Mordaunt
Abstract: System and method for making incisions in eye tissue at different depths. The system and method focuses light, possibly in a pattern, at various focal points which are at various depths within the eye tissue. A segmented lens can be used to create multiple focal points simultaneously. Optimal incisions can be achieved by sequentially or simultaneously focusing lights at different depths, creating an expanded column of plasma, and creating a beam with an elongated waist.
Type:
Application
Filed:
August 17, 2012
Publication date:
January 24, 2013
Applicant:
OptiMedica Corporation
Inventors:
Mark S. Blumenkranz, Daniel V. Palanker, David H. Mordaunt, Dan E. Andersen
Abstract: System and method for making incisions in eye tissue at different depths. The system and method focuses light, possibly in a pattern, at various focal points which are at various depths within the eye tissue. A segmented lens can be used to create multiple focal points simultaneously. Optimal incisions can be achieved by sequentially or simultaneously focusing lights at different depths, creating an expanded column of plasma, and creating a beam with an elongated waist.
Type:
Application
Filed:
August 16, 2012
Publication date:
December 13, 2012
Applicant:
OptiMedica Corporation
Inventors:
Mark S. Blumenkranz, Daniel V. Palanker, David H. Mordaunt, Dan E. Andersen
Abstract: A system and method of treating target tissue in a patient's eye, which includes generating a light beam, deflecting the light beam using a scanner to form first and second treatment patterns, delivering the first treatment pattern to the target tissue to form an incision that provides access to an eye chamber of the patient's eye, and delivering the second treatment pattern to the target tissue to form a relaxation incision along or near limbus tissue or along corneal tissue anterior to the limbus tissue of the patient's eye to reduce astigmatism thereof.
Type:
Application
Filed:
August 7, 2012
Publication date:
November 22, 2012
Applicant:
OPTIMEDICA CORPORATION
Inventors:
William Culbertson, David Angeley, George Marcellino, Dan E. Andersen
Abstract: Systems and methods are described for cataract intervention. In one embodiment a system comprises a laser source configured to produce a treatment beam comprising a plurality of laser pulses; an integrated optical system comprising an imaging assembly operatively coupled to a treatment laser delivery assembly such that they share at least one common optical element, the integrated optical system being configured to acquire image information pertinent to one or more targeted tissue structures and direct the treatment beam in a 3-dimensional pattern to cause breakdown in at least one of the targeted tissue structures; and a controller operatively coupled to the laser source and integrated optical system, and configured to adjust the laser beam and treatment pattern based upon the image information, and distinguish two or more anatomical structures of the eye based at least in part upon a robust least squares fit analysis of the image information.
Type:
Application
Filed:
January 21, 2011
Publication date:
August 18, 2011
Applicant:
OPTIMEDICA CORPORATION
Inventors:
David G Angeley, Philip Gooding, Bruce R. Woodley, George Marcellino
Abstract: A method of creating a capsulotomy and conditioning the crystalline lens is disclosed, wherein a laser is employed that provides improved performance by treating the capsule predominantly prior to treating the lens.
Type:
Application
Filed:
December 23, 2010
Publication date:
July 28, 2011
Applicant:
OPTIMEDICA CORPORATION
Inventors:
Georg Schuele, Neil Friedman, William Culbertson, Barry Siebel, Dan Andersen
Abstract: As shown in the drawings for purposes of illustration, a method and system for making physical modifications to intraocular targets is disclosed. In varying embodiments, the method and system disclosed herein provide many advantages over the current standard of care. Specifically, linear absorption facilitated photodecomposition and linear absorption facilitated plasma generation to modify intraocular tissues and synthetic intraocular lenses.
Abstract: An optical device and method for varying an optical characteristic of an optical beam can include a plurality of optical fibers each having an input end, an output end, and a core, wherein each of the optical fibers has an effective area and a numerical aperture, and a beam-deviating component for moving at least one of the optical fiber input ends and the optical beam relative to each other such that the optical beam selectively enters the input ends one at a time and is transmitted out the output ends one at a time, wherein at least one of the effective areas and the numerical apertures varies among the plurality of optical fibers such that the optical beam transmitted out of the output ends has a varying optical characteristic.
Type:
Grant
Filed:
January 12, 2007
Date of Patent:
October 6, 2009
Assignee:
Optimedica Corporation
Inventors:
Dan E. Andersen, David G. Angeley, Philip Gooding, Michael W. Wiltberger, David H. Mordaunt
Abstract: An apparatus and method for treating and/or diagnosing a patient's eye. A light source produces fixation light and procedure (treatment and/or diagnosis) light. A scanning device deflects the fixation light to produce a fixation pattern of the fixation light on the eye, and deflects the procedure light to produce a procedure pattern of the procedure light on the eye. A controller controls the scanning device such that the fixation and procedure patterns move relative to each other, and/or the fixation pattern dynamically changes.
Abstract: An apparatus and method for treating and/or diagnosing a patient's eye. A light source produces fixation light and procedure light. A scanning device deflects the fixation light to produce a fixation pattern of the fixation light on the eye, and deflects the procedure light to produce a procedure pattern of the procedure light on the eye. A controller controls the scanning device such that the fixation and procedure patterns move relative to each other, and/or the fixation pattern dynamically changes.