Robotic instrument systems and methods utilizing optical fiber sensor
First Claim
Patent Images
1. A medical instrument system, comprising:
- an elongate instrument body;
an optical fiber coupled to the instrument body and comprising a fiber core having a plurality of axially-spaced Bragg gratings, wherein the plurality of axially-spaced Bragg gratings are disposed in the fiber core of the optical fiber in a manner such that they extend continuously along the length of the optical fiber;
a controller configured to;
determine one or more position and orientation variables of the instrument body based upon reflected light signals received from the plurality of axially-spaced Bragg gratings, andgenerate a virtual representation of the instrument body according to a kinematics model of the instrument body, wherein the kinematics model takes into account mechanics of material relationships of the instrument body; and
a display system operatively associated with the controller, the display system configured to simultaneously display the virtual representation of the instrument body, a graphical image of the instrument body and the determined one or more position and orientation variables of the instrument body,wherein the one or more simultaneously displayed position and orientation variables include a roll angle of the instrument body.
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Abstract
Robotic medical instrument systems and associated methods utilizing an optical fiber sensors such as Bragg sensor optical fibers. In one configuration, an optical fiber is coupled to an elongate instrument body and includes a fiber core having one or more Bragg gratings. A controller is configured to initiate various actions in response thereto. For example, a controller may generate and display a graphical representation of the instrument body and depict one or more position and/or orientation variables thereof, or adjust motors of an instrument driver to reposition the catheter or another instrument. Optical fibers having Bragg gratings may also be utilized with other system components including a plurality of working instruments that are positioned within a sheath lumen, an instrument driver, localization sensors, and/or an image capture device, and may also be coupled to a patient'"'"'s body or associated structure that stabilizes the body.
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Citations
7 Claims
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1. A medical instrument system, comprising:
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an elongate instrument body; an optical fiber coupled to the instrument body and comprising a fiber core having a plurality of axially-spaced Bragg gratings, wherein the plurality of axially-spaced Bragg gratings are disposed in the fiber core of the optical fiber in a manner such that they extend continuously along the length of the optical fiber; a controller configured to; determine one or more position and orientation variables of the instrument body based upon reflected light signals received from the plurality of axially-spaced Bragg gratings, and generate a virtual representation of the instrument body according to a kinematics model of the instrument body, wherein the kinematics model takes into account mechanics of material relationships of the instrument body; and a display system operatively associated with the controller, the display system configured to simultaneously display the virtual representation of the instrument body, a graphical image of the instrument body and the determined one or more position and orientation variables of the instrument body, wherein the one or more simultaneously displayed position and orientation variables include a roll angle of the instrument body. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification
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Current AssigneeAuris Health, Inc. (Johnson & Johnson)
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Original AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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InventorsRamamurthy, Bhaskar S., Tanner, Neal A., Younge, Robert G., Schlesinger, Randall L.
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Primary Examiner(s)STANFIELD, CHERIE MICHELLE
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Application NumberUS12/192,033Publication NumberTime in Patent Office2,651 DaysField of SearchUS Class Current1/1CPC Class CodesA61B 1/00004 characterised by electronic...A61B 1/00013 using optical meansA61B 1/00045 Display arrangementA61B 1/00057 provided with means for tes...A61B 1/00165 with light-conductive means...A61B 1/0017 Details of single optical f...A61B 1/009 with bending or curvature d...A61B 18/082 Probes or electrodes thereforA61B 18/1492 having a flexible, catheter...A61B 18/22 the beam being directed alo...A61B 2017/00699 correcting for movement cau...A61B 2017/00725 Calibration or performance ...A61B 2034/2061 using shape-sensors, e.g. f...A61B 2034/301 for introducing or steering...A61B 2034/715 Cable tensioning mechanisms...A61B 2034/741 Glove like input devices, e...A61B 2090/374 NMR or MRIA61B 2090/376 using X-rays, e.g. fluoroscopyA61B 2090/378 using ultrasoundA61B 34/20 Surgical navigation systems...View All
