公开(公告)号：US20150265368A1

公开(公告)日：2015-09-24

申请号：US14665650

申请日：2015-03-23

Applicant: Intuitive Surgical Operations, Inc.

Inventor： Prashant Chopra ,  Vincent Duindam ,  Caitlin Donhowe ,  Tao Zhao ,  Timothy Soper ,  Federico Barbagli

IPC: A61B19/00 ,  A61B5/00 ,  A61B5/06

CPC classification number: A61B5/7425 ,  A61B1/00006 ,  A61B1/00009 ,  A61B1/00165 ,  A61B1/00193 ,  A61B1/045 ,  A61B1/05 ,  A61B1/2676 ,  A61B5/06 ,  A61B5/062 ,  A61B5/065 ,  A61B5/7285 ,  A61B34/20 ,  A61B2017/00699 ,  A61B2034/2051 ,  A61B2034/2061

Abstract: A method of modeling a cyclic anatomical motion comprises receiving a pose dataset for an identified point on an interventional instrument retained within and in compliant movement with a cyclically moving patient anatomy for a plurality of time parameters. The method also includes determining a set of pose differentials for the identified point with respect to a reference point at each of the plurality of time parameters and identifying a periodic signal for the cyclic anatomical motion from the set of pose differentials.

Abstract translation: 对循环解剖运动进行建模的方法包括接收用于多个时间参数的循环移动的患者解剖结构中保持在内部并且以柔顺运动的介入仪器上的识别点的姿态数据集。 所述方法还包括针对所述多个时间参数中的每个时间参数处的参考点确定所识别的点的一组姿态差异，以及从所述一组姿态差异识别用于所述循环解剖运动的周期性信号。

公开(公告)号：US20150077519A1

公开(公告)日：2015-03-19

申请号：US14332684

申请日：2014-07-16

Applicant: Intuitive Surgical Operations, Inc.

Inventor： David Scott ,  Wenyi Zhao ,  Brian D. Hoffman ,  John D. Stern ,  Tao Zhao

IPC: H04N13/00 ,  A61B1/00 ,  H04N9/67 ,  A61B1/04 ,  H04N13/02 ,  H04N9/09

CPC classification number: A61B1/043 ,  A61B1/00009 ,  A61B1/0005 ,  A61B1/00149 ,  A61B1/00186 ,  A61B1/00193 ,  A61B1/05 ,  A61B1/063 ,  A61B1/0638 ,  A61B1/313 ,  A61B5/0071 ,  A61B5/0075 ,  A61B5/0084 ,  A61B34/30 ,  A61B34/37 ,  A61B90/30 ,  A61B90/361 ,  A61B2034/301 ,  A61B2090/364 ,  G01N21/6456 ,  H04N13/0239 ,  H04N13/207 ,  H04N13/239

Abstract: An endoscope with a stereoscopic optical channel is held and positioned by a robotic surgical system. A capture unit captures (1) a visible first image and (2) a visible second image combined with a fluorescence second image from the light. An intelligent image processing system receives (1) the visible first image and (2) the visible second image combined with the fluorescence second image and generates at least one fluorescence image of a stereoscopic pair of fluorescence images and a visible second image. An augmented stereoscopic display system outputs a real-time stereoscopic image including a three-dimensional presentation including in one eye, a blend of the at least one fluorescence image of a stereoscopic pair of fluorescence images and one of the visible first and second images; and in the other eye, the other of the visible first and second images.

Abstract translation: 具有立体光学通道的内窥镜由机器人手术系统保持和定位。 捕获单元捕获（1）可见的第一图像和（2）与来自光的荧光第二图像组合的可见第二图像。 智能图像处理系统接收（1）可见第一图像和（2）与荧光第二图像组合的可见第二图像，并产生立体对荧光图像和可见第二图像的至少一个荧光图像。 增强立体显示系统输出包括在一只眼睛中的三维呈现的实时立体图像，立体对荧光图像对的至少一个荧光图像与可见第一和第二图像之一的混合; 在另一只眼睛中，可见的第一和第二图像中的另一个。

公开(公告)号：US20140232824A1

公开(公告)日：2014-08-21

申请号：US13768062

申请日：2013-02-15

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： Simon P. DiMaio ,  Brian D. Hoffman ,  Brandon D. Itkowitz ,  Paul W. Mohr ,  David W. Robinson ,  Tao Zhao ,  Wenyi Zhao

IPC: H04N13/00

CPC classification number: A61B34/30 ,  A61B34/37 ,  A61B90/361

Abstract: An operator telerobotically controls tools to perform a procedure on an object at a work site while viewing real-time images of the object, tools and work site on a display. Tool information is provided by filtering a part of the real-time images for enhancement or degradation to indicate a state of a tool and displaying the filtered images on the display.

Abstract translation: 操作员远程控制工具，在工作现场的对象上执行过程，同时在显示器上查看对象，工具和工作现场的实时图像。 工具信息是通过过滤一部分实时图像来增强或降级的，以指示工具的状态并在显示器上显示经滤波的图像。

公开(公告)号：US20140051986A1

公开(公告)日：2014-02-20

申请号：US13964704

申请日：2013-08-12

Applicant: Intuitive Surgical Operations, Inc.

Inventor： Tao Zhao ,  Prashant Chopra

IPC: A61B5/06

CPC classification number: A61B5/066 ,  A61B1/00009 ,  A61B5/062 ,  A61B34/20 ,  A61B2034/2065 ,  G06T7/33 ,  G06T2207/10068 ,  G06T2207/30021

Abstract: A method comprises generating a model of an anatomic region and receiving a true image from an endoscopic image capture probe positioned within the anatomic region. The method further comprises identifying a true fiducial region in the true image and identifying a plurality of virtual tissue structures in the model of the anatomic region. The method further comprises matching one of the plurality of the virtual tissue structures with the true fiducial region and determining a probe pose of the endoscopic image capture probe from the matched one of the plurality of virtual tissue structures.

Abstract translation: 一种方法包括生成解剖区域的模型并从位于解剖区域内的内窥镜图像捕获探针接收真实图像。 该方法还包括识别真实图像中的真实基准区域并且识别解剖区域的模型中的多个虚拟组织结构。 该方法还包括将多个虚拟组织结构中的一个与真实基准区域进行匹配，并从多个虚拟组织结构中匹配的一个虚拟组织结构确定内窥镜图像捕获探针的探测姿势。

公开(公告)号：US20130209208A1

公开(公告)日：2013-08-15

申请号：US13767856

申请日：2013-02-14

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： David W. Bailey ,  Simon P. DiMaio ,  Tao Zhao ,  Lawton N. Verner ,  Alan E. Loh ,  Jonathan Sorger ,  Bruce Michael Schena

IPC: B25J11/00

CPC classification number: B25J11/00 ,  A61B34/30 ,  A61B90/11 ,  A61B2017/00274 ,  A61B2017/3409 ,  A61B2018/1425 ,  A61B2034/2059 ,  A61B2090/3954 ,  A61B2090/3983 ,  A61B2090/506 ,  B25J5/02 ,  B25J9/1065

Abstract: Embodiments of an instrument manipulator are disclosed. An instrument manipulator can include a track; a translational carriage coupled to ride along the track; a shoulder yaw joint coupled to the translational carriage; a shoulder pitch joint coupled to the shoulder yaw joint, the shoulder pith joint including an arm, a wrist mount coupled to the arm, struts coupled between the wrist mount and the shoulder yaw joint, and a shoulder pitch mechanism coupled to the arm; a yaw-pitch-roll wrist coupled to the wrist mount, the yaw-pitch-roll wrist including a yaw joint and a differentially driven pitch-roll joint; and an instrument mount coupled to the wrist. The various joints and carriages can be driven by motors.

Abstract translation: 公开了一种仪器操纵器的实施例。 仪器操纵器可以包括轨道; 一个平行的马车，沿着轨道骑行; 耦合到平移滑架的肩偏转接头; 肩肩关节，其联接到所述肩偏转关节，所述肩部髓关节包括臂，联接到所述臂的腕架，连接在所述腕架和所述肩偏转接头之间的支柱，以及联接到所述臂的肩部俯仰机构; 偏转俯仰滚动手腕，其连接到所述腕架上，所述偏航俯仰辊手腕包括偏转接头和差速驱动的俯仰辊接头; 以及耦合到手腕的仪器座。 各种接头和托架可由电机驱动。

公开(公告)号：US20130166070A1

公开(公告)日：2013-06-27

申请号：US13736720

申请日：2013-01-08

Applicant: Intuitive Surgical Operations, Inc.

Inventor： Wenyi Zhao ,  Tao Zhao ,  David Q. Larkin

IPC: G01L5/22

CPC classification number: A61B34/30 ,  A61B34/37 ,  A61B34/76 ,  A61B2034/102 ,  A61B2090/064 ,  B25J9/1689 ,  G05B2219/40144

Abstract: Methods of and a system for providing force information for a robotic surgical system. The method includes storing first kinematic position information and first actual position information for a first position of an end effector; moving the end effector via the robotic surgical system from the first position to a second position; storing second kinematic position information and second actual position information for the second position; and providing force information regarding force applied to the end effector at the second position utilizing the first actual position information, the second actual position information, the first kinematic position information, and the second kinematic position information. Visual force feedback is also provided via superimposing an estimated position of an end effector without force over an image of the actual position of the end effector. Similarly, tissue elasticity visual displays may be shown.

Abstract translation: 用于为机器人手术系统提供力信息的方法和系统。 该方法包括存储用于末端执行器的第一位置的第一运动位置信息和第一实际位置信息; 将所述末端执行器经由所述机器人手术系统从所述第一位置移动到第二位置; 存储用于所述第二位置的第二运动位置信息和第二实际位置信息; 并且利用第一实际位置信息，第二实际位置信息，第一运动位置信息和第二运动位置信息，提供关于在第二位置处施加到末端执行器的力的力信息。 通过将末端执行器的估计位置无重力地叠加在末端执行器的实际位置的图像上也提供视力反馈。 类似地，可以显示组织弹性视觉显示。

公开(公告)号：US20250057613A1

公开(公告)日：2025-02-20

申请号：US18935057

申请日：2024-11-01

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： Dorin Panescu ,  Prashant Chopra ,  Jonathan M. Sorger ,  Tao Zhao

IPC: A61B34/32 ,  A61B17/00 ,  A61B17/34 ,  A61B34/10 ,  A61B34/20 ,  A61B34/30 ,  A61N5/10

Abstract: A medical robotic system and method of operating such comprises taking intraoperative external image data of a patient anatomy, and using that image data to generate a modeling adjustment for a control system of the medical robotic system (e.g., updating anatomic model and/or refining instrument registration), and/or adjust a procedure control aspect (e.g., regulating substance or therapy delivery, improving targeting, and/or tracking performance).

公开(公告)号：US12150718B2

公开(公告)日：2024-11-26

申请号：US18365710

申请日：2023-08-04

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： Federico Barbagli ,  Christopher R. Carlson ,  Caitlin Q. Donhowe ,  Vincent Duindam ,  Timothy D. Soper ,  Tao Zhao

IPC: A61B34/20 ,  A61B1/00 ,  A61B1/005 ,  A61B1/01 ,  A61B1/267 ,  A61B34/10 ,  A61B34/35 ,  G06T7/00 ,  G06T7/30 ,  A61B34/30 ,  A61B90/00 ,  G06T7/38

Abstract: A system includes a fixture having a known location in a surgical reference frame, a medical instrument, a position measuring device, and a computing system. The fixture includes a constraint structure having a known constraint structure pose in the surgical reference frame. The medical instrument includes a reference portion movably coupled to the fixture, an elongate flexible portion coupled to the reference portion, wherein the elongate flexible portion is sized to pass through the constraint structure, and a shape sensor. The position measuring device measures motion of the reference portion with respect to the fixture. The computing system is configured to receive shape information for the medical instrument, receive reference portion position information in the surgical reference frame, determine an estimated constraint structure pose from the reference portion position information and the shape information, determine a correction factor, and modify the shape information based upon the correction factor.

公开(公告)号：US12082920B2

公开(公告)日：2024-09-10

申请号：US18311031

申请日：2023-05-02

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： Vincent Duindam ,  Prashant Chopra ,  Tao Zhao

IPC: A61B5/05 ,  A61B5/00 ,  A61B5/06 ,  A61B34/30 ,  G16Z99/00 ,  A61B17/00 ,  A61B34/10 ,  A61B34/20

CPC classification number: A61B5/066 ,  A61B5/0044 ,  A61B5/062 ,  A61B5/065 ,  A61B34/30 ,  G16Z99/00 ,  A61B2017/00699 ,  A61B2017/00809 ,  A61B2034/105 ,  A61B2034/2051 ,  A61B2034/2061 ,  A61B2034/301 ,  A61B2034/303 ,  A61B2505/05 ,  A61B2562/043

Abstract: A method and medical system for estimating the deformation of an anatomic structure that comprises generating a first model of at least one anatomical passageway from anatomical data describing a patient anatomy and determining a shape of a device positioned within the branched anatomical passageways. The method and medical system also comprise generating a second model of the plurality of branched anatomical passageways by adjusting the first model relative to the determined shape of the device.

公开(公告)号：US20240296608A1

公开(公告)日：2024-09-05

申请号：US18437072

申请日：2024-02-08

Applicant: INTUITIVE SURGICAL OPERATIONS, INC.

Inventor： Brandon D. Itkowitz ,  Simon P. DiMaio ,  Daniel J. Halabe ,  Christopher J. Hasser ,  Brian David Hoffman ,  David Q. Larkin ,  Catherine J. Mohr ,  Paul W. Mohr ,  Tao Zhao ,  Wenyi Zhao

IPC: G06T11/60 ,  A61B34/00 ,  A61B34/20 ,  A61B34/30 ,  A61B34/37 ,  A61B90/00 ,  B25J9/16 ,  G05B19/42 ,  G06T11/40

CPC classification number: G06T11/60 ,  A61B34/30 ,  A61B34/37 ,  A61B90/36 ,  B25J9/1666 ,  B25J9/1671 ,  B25J9/1692 ,  G05B19/4202 ,  G06T11/40 ,  A61B34/20 ,  A61B2034/2061 ,  A61B34/25 ,  A61B90/361 ,  A61B2090/371 ,  G05B2219/36432 ,  G05B2219/39083 ,  G05B2219/39096 ,  G05B2219/39449 ,  G05B2219/40607 ,  G05B2219/45117 ,  G05B2219/45123 ,  Y02P90/02

Abstract: A system comprises: a robotic arm operatively coupleable to a tool comprising a working end; and an input device communicatively coupled to the robotic arm. The input device is manipulatable by an operator. The system further comprises a processor configured to cause an image of a work site, captured by an image capture device from a perspective of an image reference frame, to be displayed on a display. The image of the work site includes an image of the working end of the tool. The processor is further configured to determine a position of the working end of the tool in the image of the work site and render a tool information overlay at the position of the working end of the tool in the image of the work site. The tool information overlay visually indicates an identity of the input device.