公开(公告)号：US20240366085A1

公开(公告)日：2024-11-07

申请号：US18771735

申请日：2024-07-12

Applicant: AMO Development, LLC

Inventor： Georg Schuele ,  Noah Bareket ,  David Dewey ,  John S. Hart ,  Javier G. Gonzalez ,  Raymond Woo ,  Thomas Z. Teisseyre ,  Jeffrey A. Golda ,  Katrina B. Sheehy ,  Madeleine C. O'Meara ,  Bruce Woodley

IPC: A61B3/117 ,  A61B3/00 ,  A61B3/10 ,  A61B3/14 ,  A61F9/007 ,  A61F9/008

Abstract: A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.

公开(公告)号：US11406536B2

公开(公告)日：2022-08-09

申请号：US16522404

申请日：2019-07-25

Applicant: AMO DEVELOPMENT, LLC

Inventor： Georg Schuele ,  Raymond Woo ,  John S. Hart

IPC: A61F9/008

Abstract: Embodiments of this disclosure disclose an imaging system, including an eye interface device, a scanning assembly, a beam source, a free-floating mechanism, and a detection assembly. The beam source generates an electromagnetic radiation beam. The detection assembly generates a signal indicative of an intensity of a portion of the electromagnetic radiation beam reflected from the focal point location. A subsequent focal point of the electromagnetic radiation beam may be adjusted per the measured intensity signal. In some embodiments, an intensity signal below a lower threshold value may suggest a depth increase for a subsequent focal point. An intensity signal above an upper threshold value may suggest a depth decrease for a subsequent focal point. And, an intensity signal between the lower and upper thresholds may suggest a depth be maintained for a subsequent focal point. The focal point may be adjusted after each pulse or after a plurality of pulses.

公开(公告)号：US11963909B2

公开(公告)日：2024-04-23

申请号：US16601553

申请日：2019-10-14

Applicant: AMO Development, LLC

Inventor： John S. Hart ,  David A. Dewey ,  Georg Schuele ,  Phillip H. Gooding ,  Christine J. Beltran ,  Javier G. Gonzalez ,  Katrina B. Sheehy ,  Jeffrey A. Golda ,  Raymond Woo ,  Madeleine C. O'Meara ,  Noah Bareket ,  Thomas Z. Teisseyre ,  Bruce Woodley

IPC: A61F9/008 ,  A61B3/00 ,  A61B3/10 ,  A61B3/117 ,  A61B3/14 ,  A61F9/007

CPC classification number: A61F9/00838 ,  A61B3/1025 ,  A61B3/1173 ,  A61B3/14 ,  A61F9/00754 ,  A61F9/008 ,  A61B3/0025 ,  A61F2009/00846 ,  A61F2009/00855 ,  A61F2009/0087 ,  A61F2009/00872 ,  A61F2009/00878 ,  A61F2009/00887 ,  A61F2009/00889 ,  A61F2009/00895

Abstract: A method and surgical system including a laser source for generating a pulsed laser beam, an imaging system including a detector, shared optics configured for directing the pulsed laser beam to an object to be sampled and confocally deflecting back-reflected light from the object to the detector, a patient interface, through which the pulsed laser beam is directed, the patient interface having, a cup with a large and small opening, and a notched ring inside the cup; and a controller operatively coupled to the laser source, the imaging system and the shared optics, the controller configured to align the eye for procedure.

公开(公告)号：US20220110520A1

公开(公告)日：2022-04-14

申请号：US17645747

申请日：2021-12-23

Applicant: AMO Development, LLC

Inventor： Georg Schuele ,  Noah Bareket ,  David Dewey ,  John S. Hart ,  Javier G. Gonzalez ,  Raymond Woo ,  Thomas Z. Teisseyre ,  Jeffrey A. Golda ,  Katrina B. Sheehy ,  Madeleine C. O'Meara ,  Bruce Woodley

IPC: A61B3/117 ,  A61B3/14 ,  A61B3/10 ,  A61F9/007 ,  A61F9/008

Abstract: A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.

公开(公告)号：US20210251807A1

公开(公告)日：2021-08-19

申请号：US17307964

申请日：2021-05-04

Applicant: AMO Development, LLC

Inventor： Bruce R. Woodley ,  Michael J. Simoneau ,  Raymond Woo ,  Javier G. Gonzalez

IPC: A61F9/008

Abstract: A laser eye surgery system includes a laser to generate a laser beam. A topography measurement system measures corneal topography. A processor is coupled to the laser and the topography measurement system, the processor embodying instructions to measure a first corneal topography of the eye, A first curvature of the cornea is determined. A target curvature of the cornea that treats the eye is determined. A first set of incisions and a set of partial incisions in the cornea smaller than the first set of incisions are determined. The set of partial incisions is incised on the cornea by the laser beam. A second corneal topography is measured. A second curvature of the cornea is determined. The second curvature is determined to differ from the target curvature and a second set of incisions are determined. The second set of incisions is incised on the cornea.

公开(公告)号：US11229357B2

公开(公告)日：2022-01-25

申请号：US16188119

申请日：2018-11-12

Applicant: AMO Development, LLC

Inventor： Georg Schuele ,  Noah Bareket ,  David Dewey ,  John S. Hart ,  Javier G. Gonzalez ,  Raymond Woo ,  Thomas Z. Teisseyre ,  Jeffrey A. Golda ,  Katrina B. Sheehy ,  Madeleine C O'Meara ,  Bruce Woodley

IPC: A61B3/117 ,  A61F9/007 ,  A61F9/008 ,  A61B3/14 ,  A61B3/10 ,  A61B3/00

Abstract: A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.

公开(公告)号：US11026841B2

公开(公告)日：2021-06-08

申请号：US16457758

申请日：2019-06-28

Applicant: AMO DEVELOPMENT, LLC

Inventor： Bruce R. Woodley ,  Michael J. Simoneau ,  Raymond Woo ,  Javier G. Gonzalez

IPC: A61F9/008

Abstract: A laser eye surgery system includes a laser to generate a laser beam. A topography measurement system measures corneal topography. A processor is coupled to the laser and the topography measurement system, the processor embodying instructions to measure a first corneal topography of the eye. A first curvature of the cornea is determined. A target curvature of the cornea that treats the eye is determined. A first set of incisions and a set of partial incisions in the cornea smaller than the first set of incisions are determined. The set of partial incisions is incised on the cornea by the laser beam. A second corneal topography is measured. A second curvature of the cornea is determined. The second curvature is determined to differ from the target curvature and a second set of incisions are determined. The second set of incisions is incised on the cornea.

公开(公告)号：US12042228B2

公开(公告)日：2024-07-23

申请号：US17645747

申请日：2021-12-23

Applicant: AMO Development, LLC

Inventor： Georg Schuele ,  Noah Bareket ,  David Dewey ,  John S. Hart ,  Javier G. Gonzalez ,  Raymond Woo ,  Thomas Z. Teisseyre ,  Jeffrey A. Golda ,  Katrina B. Sheehy ,  Madeleine C O'Meara ,  Bruce Woodley

IPC: A61B3/117 ,  A61B3/00 ,  A61B3/10 ,  A61B3/14 ,  A61F9/007 ,  A61F9/008

CPC classification number: A61B3/1173 ,  A61B3/1025 ,  A61B3/14 ,  A61F9/00754 ,  A61F9/008 ,  A61B3/0025 ,  A61F2009/00844 ,  A61F2009/00878 ,  A61F2009/00897

Abstract: A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.

公开(公告)号：US11883329B2

公开(公告)日：2024-01-30

申请号：US17307964

申请日：2021-05-04

Applicant: AMO Development, LLC

Inventor： Bruce R. Woodley ,  Michael J. Simoneau ,  Raymond Woo ,  Javier G. Gonzalez

IPC: A61F9/008

CPC classification number: A61F9/00829 ,  A61F9/008 ,  A61F9/00804 ,  A61F9/00806 ,  A61F9/00827 ,  A61F2009/00851 ,  A61F2009/00859 ,  A61F2009/00872 ,  A61F2009/00882 ,  A61F2009/00897

Abstract: A laser eye surgery system includes a laser to generate a laser beam. A topography measurement system measures corneal topography. A processor is coupled to the laser and the topography measurement system, the processor embodying instructions to measure a first corneal topography of the eye, A first curvature of the cornea is determined. A target curvature of the cornea that treats the eye is determined. A first set of incisions and a set of partial incisions in the cornea smaller than the first set of incisions are determined. The set of partial incisions is incised on the cornea by the laser beam. A second corneal topography is measured. A second curvature of the cornea is determined. The second curvature is determined to differ from the target curvature and a second set of incisions are determined. The second set of incisions is incised on the cornea.

公开(公告)号：US20210307606A1

公开(公告)日：2021-10-07

申请号：US17236937

申请日：2021-04-21

Applicant: AMO Development, LLC

Inventor： Georg Schuele ,  Noah Bareket ,  David Dewey ,  John S. Hart ,  Javier G. Gonzalez ,  Raymond Woo ,  Thomas Z. Teisseyre ,  Jeffrey A. Golda ,  Katrina B. Sheehy ,  Madeleine C. O'Meara ,  Bruce Woodley

IPC: A61B3/117 ,  A61B3/14 ,  A61B3/10 ,  A61F9/007 ,  A61F9/008

Abstract: A laser surgery system includes a light source, an eye interface device, a scanning assembly, a confocal detection assembly and preferably a confocal bypass assembly. The light source generates an electromagnetic beam. The scanning assembly scans a focal point of the electromagnetic beam to different locations within the eye. An optical path propagates the electromagnetic beam from a light source to the focal point, and also propagates a portion of the electromagnetic beam reflected from the focal point location back along at least a portion of the optical path. The optical path includes an optical element associated with a confocal detection assembly that diverts a portion of the reflected electromagnetic radiation to a sensor. The sensor generates an intensity signal indicative of intensity the electromagnetic beam reflected from the focal point location. The confocal bypass assembly reversibly diverts the electromagnetic beam along a diversion optical path around the optical element.