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公开(公告)号:US10265854B2
公开(公告)日:2019-04-23
申请号:US15228853
申请日:2016-08-04
申请人: Synaptive Medical (Barbados) Inc. , Sean Jy-Shyang Chen , Kirusha Srimohanarajah , Gal Sela , Joshua Richmond , Kelly Dyer
摘要: Methods and devices for identifying and defining a safety zone for restricting movement of a robotic arm in an operating room during a medical procedure are disclosed. The disclosed method utilizes medical navigation system, which receives an initiation input indicating initiation of defining of the safety zone. In response to receiving the initiation input, the system tracks an instrument and determines the location of the tracked instrument relative to a reference point. The system detects changes in the location of the tracked instrument until a termination input is received at the medical navigation system. The termination input indicates the termination of the defining of the safety zone. The system stores, in memory, change data indicative of the changes in the location of the tracked instrument. The data identifies the safety zone relative to the reference point.
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公开(公告)号:US10111717B2
公开(公告)日:2018-10-30
申请号:US15553426
申请日:2016-05-02
申请人: SYNAPTIVE MEDICAL (BARBADOS) INC. , Dorothy Lui , Gal Sela , Aisha Sial , Sepide Movaghati , Kirusha Srimohanarajah , Sean Chen , Simon Alexander , Neil Witcomb
发明人: Dorothy Lui , Gal Sela , Aisha Sial , Sepide Movaghati , Kirusha Srimohanarajah , Sean Jy-Shyang Chen , Simon Kenley Alexander , Neil Jeffrey Witcomb
摘要: The application as disclosed herein describes systems and methods for performing patient registration using a surgical navigation system. This application attempts to provide for improvements upon existing systems through the addition of refinement steps used to increase the accuracy of registration and streamline said process. In some cases the improvements generally involve the manipulation of spatial data in an iterative manner.
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公开(公告)号:US20200008878A1
公开(公告)日:2020-01-09
申请号:US16468191
申请日:2016-12-08
申请人: Kirusha Srimohanarajah , Dorothy Lui , Gal Sela , Stephen Elliott Soman , Sepide Movaghati , SYNAPTIVE MEDICAL (BARBADOS) INC.
摘要: A system for adjusting an operating state of a medical electronic device is described. In an aspect, the system includes an optical tracking system configured to detect three or more tracking markers. The system also includes a processor coupled with the optical tracking system. The processor is programmed with instructions which, when executed, configure the processor to: configure an input command by assigning at least one operating state of the medical electronic device to a particular state of at least one of the tracking markers; after receiving a priming command, identify a present state of the tracking markers based on data from the optical tracking system; compare the present state with the particular state assigned to the operating state; and based on the comparison, determine that an input command has been received and adjust the operating state of the medical electronic device to the assigned operating state.
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公开(公告)号:US10828107B2
公开(公告)日:2020-11-10
申请号:US15571554
申请日:2016-10-21
申请人: SYNAPTIVE MEDICAL (BARBADOS) INC. , Gal Sela , Fergal Kerins , Kamyar Abhari , Kirusha Srimohanarajah
发明人: Gal Sela , Fergal Kerins , Kamyar Abhari , Kirusha Srimohanarajah
摘要: A training system for training a trainee to perform a surgical procedure on an anatomical region. The system includes a physical model of the anatomical region, a physical training instrument, a tracking system configured to track the location and orientation of the physical training instrument relative to the physical model, a display device, and a computer system. The computer system receives from the tracking system information indicating the location and orientation of the physical training instrument and generates and displays an augmented physical model and the physical training instrument. The display is updated based as the trainee manipulates the physical training instrument. After the trainee has completed the surgical procedure, the computer calculates a score based on the performance of the trainee. The score is a measure of the accuracy of the surgical procedure performed by the trainee or the duration of the surgical procedure.
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公开(公告)号:US10765480B2
公开(公告)日:2020-09-08
申请号:US15543803
申请日:2016-08-17
摘要: A fiducial marker to be tracked by a surgical navigation system. The fiducial marker is to be affixed to an object during a surgical procedure. The fiducial marker including a casing for attachment to the object; a light emitting component attached to the casing; a power source within the casing; a signal receiver to receive a signal from the surgical navigation system; and control logic to control the light emitting component in response to the signal from the surgical navigation system. The object to-be-tracked may include a plurality of the fiducial markers arranged in geometric pattern, and the markers may include a first active fiducial marker having a first light emitting component that emits light having a first spectral bandwidth, and a second active fiducial marker having a second light emitting component that emits light having a second spectral bandwidth different from the first spectral bandwidth.
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6.
公开(公告)号:US10543045B2
公开(公告)日:2020-01-28
申请号:US15575552
申请日:2015-07-13
IPC分类号: A61B34/20 , H04N13/246 , H04N13/254 , G06T19/00 , A61B90/00 , A61B90/10
摘要: A medical navigation system for displaying a three dimensional (3D) surface video of a target is provided. The medical navigation system comprises a 3D imaging device, a camera, a display, and a controller electrically coupled to the 3D imaging device, the camera, and the display. The controller has a processor coupled to a memory. The controller is configured to perform calibration of input devices; acquire 3D depth data of the target from a signal generated by the 3D imaging device; construct a 3D surface contour of the target based on the 3D depth data; acquire a video stream of the target from a signal generated by the camera; generate a 3D surface video based on the 3D surface contour and the video stream; and display the 3D surface video on the display.
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公开(公告)号:US10098564B2
公开(公告)日:2018-10-16
申请号:US15107280
申请日:2015-08-21
申请人: Gal Sela , Sean Jy-shyang Chen
发明人: Gal Sela , Sean Jy-shyang Chen
摘要: A method comprises: storing, in a memory of a computing device, (i) a preoperative image of patient tissue obtained using a first imaging modality and registered to a first frame of reference, and (ii) anatomical data defining a plurality of neural tracts in the patient tissue; receiving, at a processor connected with the memory, a location in the first frame of reference for application of a cortical stimulator pad to the patient tissue; receiving, at the processor, a range of influence of the cortical stimulator pad; based on the location and the range of influence, selecting, at the processor, an intersected neural tract from the plurality of neural tracts, a portion of the intersected neural tract being located within the range of influence; and controlling, at the processor, the display to render the preoperative image, the location and the intersected neural tract according to the first frame of reference.
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公开(公告)号:US20190223704A1
公开(公告)日:2019-07-25
申请号:US16326349
申请日:2016-08-17
摘要: A flexible high resolution endoscope is provided herein. The endoscope comprises: a plurality of optical fiber bundles; a plurality of lenses in a one-to-one relationship with the plurality of optical fiber bundles; and, a plurality of cameras in a one-to-one relationship with the plurality of optical fiber bundles, each respective optical fiber bundle, of the plurality of optical fiber bundles, having a respective lens, of the plurality of lenses, located at a respective distal end, and a camera, of the plurality of cameras, located at a respective proximal end, the plurality of optical fiber bundles being coupled together at a common distal end, and otherwise being uncoupled from one another, a bending radius of the endoscope defined by a largest respective bending radius of each of the plurality of optical fiber bundles.
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9.
公开(公告)号:US10102681B2
公开(公告)日:2018-10-16
申请号:US15107015
申请日:2015-07-29
摘要: A method of generating adjusted image data to compensate for modality-induced distortion includes, at a processor: receiving a three-dimensional image captured with a first imaging modality and including (i) distorted surface image data depicting a surface of an object and (ii) distorted volume image data depicting a volume of the object; extracting the distorted surface image data from the three-dimensional image; receiving reference surface image data captured with a second imaging modality and depicting the surface of the object; determining a surface transformation for registering the distorted surface image data with the reference surface image data; determining a volume transformation informed by the surface transformation; generating an adjusted three-dimensional image by applying the volume transformation to the three-dimensional image; and storing the adjusted three-dimensional image in the memory.
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公开(公告)号:US09600138B2
公开(公告)日:2017-03-21
申请号:US14769668
申请日:2014-03-14
申请人: Monroe M. Thomas , Gal Sela , Cameron Piron , Joshua Richmond , Murugathas Yuwaraj , Wes Hodges , Simon Alexander , David Gallop , William Lau , Sheryl Thingvold , Kelly Dyer
发明人: Monroe M. Thomas , Gal Sela , Cameron Piron , Joshua Richmond , Murugathas Yuwaraj , Wes Hodges , Simon Alexander , David Gallop , William Lau , Sheryl Thingvold , Kelly Dyer
IPC分类号: G06K9/00 , G06F3/0481 , G06T19/00 , A61B19/00 , G06F3/0484 , G06T1/60 , G06T7/00 , G06T11/20 , G06T17/00 , A61B5/05 , A61B5/055 , A61B8/00 , A61B5/00 , A61B6/03
CPC分类号: G06T19/003 , A61B5/0042 , A61B5/055 , A61B6/032 , A61B6/037 , A61B6/501 , A61B8/00 , A61B8/0808 , A61B34/10 , A61B34/20 , A61B2034/105 , A61B2034/107 , A61B2034/2051 , A61B2034/2055 , A61B2090/3735 , A61B2090/378 , G06F3/04815 , G06F3/04842 , G06F3/04847 , G06T1/60 , G06T7/0012 , G06T11/20 , G06T17/00 , G06T19/20 , G06T2200/04 , G06T2200/24 , G06T2207/10088 , G06T2207/20101 , G06T2207/30016 , G06T2207/30241 , G06T2210/41 , G06T2219/028
摘要: Disclosed herein are planning, navigation and simulation systems and methods for minimally invasive therapy in which the planning method and system uses patient specific pre-operative images. The planning system allows for multiple paths to be developed from the pre-operative images, and scores the paths depending on desired surgical outcome of the surgery and the navigation systems allow for minimally invasive port based surgical procedures, as well as craniotomies in the particular case of brain surgery.
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