公开(公告)号：US20200038245A1

公开(公告)日：2020-02-06

申请号：US16601553

申请日：2019-10-14

Applicant: OPTIMEDICA CORPORATION

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 ,  A61B3/14 ,  A61B3/10 ,  A61B3/117 ,  A61F9/007

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：US20190350760A1

公开(公告)日：2019-11-21

申请号：US16530912

申请日：2019-08-02

Applicant: OPTIMEDICA CORPORATION

Inventor： Rajeshwari Srinivasan ,  Jeffrey A. Golda ,  Javier G. Gonzalez ,  David D. Scott ,  David A. Dewey ,  Noah Bareket ,  Georg Schuele

IPC: A61F9/008 ,  A61B3/107

Abstract: A method of cataract surgery in an eye of a patient includes identifying a feature selected from the group consisting of an axis, a meridian, and a structure of an eye by corneal topography and forming fiducial mark incisions with a laser beam along the axis, meridian or structure in the cornea outside the optical zone of the eye. A laser cataract surgery system a laser source, a topography measurement system, an integrated optical subsystem, and a processor in operable communication with the laser source, corneal topography subsystem and the integrated optical system. The processor includes a tangible non-volatile computer readable medium comprising instructions to determine one of an axis, meridian and structure of an eye of the patient based on the measurements received from topography measurement system, and direct the treatment beam so as to incise radial fiducial mark incisions.

公开(公告)号：US20160250068A1

公开(公告)日：2016-09-01

申请号：US15148913

申请日：2016-05-06

Applicant: OPTIMEDICA CORPORATION

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

IPC: A61F9/008 ,  A61B3/10 ,  A61F9/009

CPC classification number: A61F9/008 ,  A61B3/0025 ,  A61B3/1025 ,  A61B3/1173 ,  A61B3/14 ,  A61F9/00754 ,  A61F9/00825 ,  A61F9/009 ,  A61F2009/00844 ,  A61F2009/00878 ,  A61F2009/00882 ,  A61F2009/00897

Abstract: A method of reversibly separating an imaging assembly from an optical path in a laser surgical system includes generating an electromagnetic beam, propagating the electromagnetic beam from the beam source to a scanner along an optical path, the optical path comprising a first optical element that attenuates the electromagnetic beam, reversibly inserting a confocal bypass assembly into the optical path, diverting the electromagnetic beam along a diversion optical path around the first optical element, wherein the confocal bypass assembly automatically exits the optical path when a power loss occurs to one or more components of the system.

Abstract translation: 一种在激光手术系统中将成像组件与光路可逆地分离的方法包括产生电磁束，沿着光路将来自光束源的电磁束传播到扫描仪，该光路包括第一光学元件，其使 电磁束，可逆地将共焦旁路组件插入到光路中，使电磁束沿着第一光学元件周围的转向光路转向，其中当对一个或多个部件的功率损耗发生时，共焦旁路组件自动离开光路 系统。

公开(公告)号：US20150272782A1

公开(公告)日：2015-10-01

申请号：US14576593

申请日：2014-12-19

Applicant: Optimedica Corporation

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

CPC classification number: A61B3/1173 ,  A61B3/0025 ,  A61B3/1025 ,  A61B3/14 ,  A61F9/00754 ,  A61F9/008 ,  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.

Abstract translation: 激光手术系统包括光源，眼睛接口装置，扫描组件，共焦检测组件和优选共焦旁路组件。 光源产生电磁波束。 扫描组件将电磁波束的焦点扫描到眼睛内的不同位置。 光路将电磁波从光源传播到焦点，并且还沿着光路的至少一部分将从焦点位置反射的电磁波束的一部分传播回传播。 光路包括与共焦检测组件相关联的光学元件，其将一部分反射的电磁辐射转移到传感器。 传感器产生表示从焦点位置反射的电磁波的强度的强度信号。 共焦旁路组件沿着光学元件周围的转向光路可逆地转移电磁束。

公开(公告)号：US10369053B2

公开(公告)日：2019-08-06

申请号：US14885213

申请日：2015-10-16

Applicant: OptiMedica Corporation

Inventor： Rajeshwari Srinivasan ,  Jeffrey A. Golda ,  Javier G. Gonzalez ,  David D. Scott ,  David A. Dewey ,  Noah Bareket ,  Georg Schuele

IPC: A61F9/08 ,  A61F9/008 ,  A61B3/107

Abstract: A method of cataract surgery in an eye of a patient includes identifying a feature selected from the group consisting of an axis, a meridian, and a structure of an eye by corneal topography and forming fiducial mark incisions with a laser beam along the axis, meridian or structure in the cornea outside the optical zone of the eye. A laser cataract surgery system a laser source, a topography measurement system, an integrated optical subsystem, and a processor in operable communication with the laser source, corneal topography subsystem and the integrated optical system. The processor includes a tangible non-volatile computer readable medium comprising instructions to determine one of an axis, meridian and structure of an eye of the patient based on the measurements received from topography measurement system, and direct the treatment beam so as to incise radial fiducial mark incisions.

公开(公告)号：USD804038S1

公开(公告)日：2017-11-28

申请号：US29576483

申请日：2016-09-02

Applicant: OPTIMEDICA CORPORATION

Designer： Steven S. Christensen ,  Antonio D. Lucero ,  Brian Riley ,  Eric B. Lafay ,  David D. Scott ,  Michelle SanPedro ,  Raymond B. Cota ,  Qi Wu ,  Jeffrey A. Golda

公开(公告)号：US20160095752A1

公开(公告)日：2016-04-07

申请号：US14885213

申请日：2015-10-16

Applicant: OptiMedica Corporation

Inventor： Rajeshwari Srinivasan ,  Jeffrey A. Golda ,  Javier G. Gonzalez ,  David D. Scott ,  David A. Dewey ,  Noah Bareket ,  Georg Schuele

IPC: A61F9/008

CPC classification number: A61F9/00825 ,  A61B3/107 ,  A61F9/00827 ,  A61F9/00829 ,  A61F9/00834 ,  A61F2009/00846 ,  A61F2009/00851 ,  A61F2009/00853 ,  A61F2009/0087 ,  A61F2009/00872 ,  A61F2009/00876 ,  A61F2009/0088 ,  A61F2009/00882 ,  A61F2009/00887 ,  A61F2009/00889 ,  A61F2009/00897

Abstract: A method of cataract surgery in an eye of a patient includes identifying a feature selected from the group consisting of an axis, a meridian, and a structure of an eye by corneal topography and forming fiducial mark incisions with a laser beam along the axis, meridian or structure in the cornea outside the optical zone of the eye. A laser cataract surgery system a laser source, a topography measurement system, an integrated optical subsystem, and a processor in operable communication with the laser source, corneal topography subsystem and the integrated optical system. The processor includes a tangible non-volatile computer readable medium comprising instructions to determine one of an axis, meridian and structure of an eye of the patient based on the measurements received from topography measurement system, and direct the treatment beam so as to incise radial fiducial mark incisions.

Abstract translation: 在患者眼睛中的白内障手术的方法包括通过角膜形貌识别选自由轴，子午线和眼睛结构组成的组的特征，并且沿着轴线形成具有激光束的基准标记切口，子午线 或在眼睛的光学区域外的角膜中的结构。 激光白内障手术系统，激光源，地形测量系统，集成光学子系统和与激光源，角膜地形子系统和集成光学系统可操作地通信的处理器。 处理器包括有形的非易失性计算机可读介质，其包括用于基于从地形测量系统接收的测量结果来确定患者的眼睛的轴线，子午线和结构之一的指令，以及指导治疗束以便切割径向基准 标记切口。

公开(公告)号：USD857210S1

公开(公告)日：2019-08-20

申请号：US29576570

申请日：2016-09-05

Applicant: OPTIMEDICA CORPORATION

Designer： Steven S. Christensen ,  Antonio D. Lucero ,  Brian Riley ,  Eric B. Lafay ,  David D. Scott ,  Michelle SanPedro ,  Raymond B. Cota ,  Qi Wu ,  Jeffrey A. Golda

公开(公告)号：US20190076017A1

公开(公告)日：2019-03-14

申请号：US16188119

申请日：2018-11-12

Applicant: OPTIMEDICA CORPORATION

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 ,  A61F9/008 ,  A61F9/007 ,  A61B3/10 ,  A61B3/14 ,  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：USD826410S1

公开(公告)日：2018-08-21

申请号：US29576487

申请日：2016-09-02

Applicant: OPTIMEDICA CORPORATION

Designer： Steven S. Christensen ,  Antonio D. Lucero ,  Brian Riley ,  Eric B. Lafay ,  David D. Scott ,  Michelle SanPedro ,  Raymond B. Cota ,  Qi Wu ,  Adam K. Hoopai ,  Jeffrey A. Golda

Abstract: The design consists of the features of configuration, shape, ornamentation and pattern of the HEADREST FOR MOBILE PATIENT BED shown in solid lines in the drawings. Figure 1 is a perspective view of a headrest for mobile patient bed; Figure 2 is a right side view of the headrest for mobile patient bed;Figure 3 is a left side view of the headrest for mobile patient bed;Figure 4 is a front view of the headrest for mobile patient bed;Figure 5 is a rear view of the headrest for mobile patient bed;Figure 6 is a top view of the headrest for mobile patient bed; andFigure 7 is a bottom view of the headrest for mobile patient bed.