Optical fiber shape sensing systems
First Claim
Patent Images
1. A medical instrument system, comprising:
- an elongate flexible catheter body having an annular wall;
an optical fiber sensor substantially encapsulated in the wall of the catheter body;
a detector operatively coupled to the optical fiber sensor and configured to detect respective light signals transmitted on the optical fiber sensor; and
a controller operatively coupled to the detector and configured to determine a twist of a portion of the catheter body based on an analysis of detected light signals.
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Abstract
A medical instrument system includes an elongate flexible instrument body with an optical fiber substantially encapsulated in a wall of the instrument body, the optical fiber including one or more fiber gratings. A detector is operatively coupled to the optical fiber and configured to detect respective light signals reflected by the one or more fiber gratings. A controller is operatively coupled to the detector, and configured to determine a twist of at least a portion of the instrument body based on detected reflected light signals. The instrument may be a guide catheter and may be robotically or manually controlled.
271 Citations
22 Claims
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1. A medical instrument system, comprising:
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an elongate flexible catheter body having an annular wall; an optical fiber sensor substantially encapsulated in the wall of the catheter body; a detector operatively coupled to the optical fiber sensor and configured to detect respective light signals transmitted on the optical fiber sensor; and a controller operatively coupled to the detector and configured to determine a twist of a portion of the catheter body based on an analysis of detected light signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A medical instrument system, comprising:
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a flexible elongate catheter body having an annular wall; a plurality of optical fibers substantially encapsulated in a wall of the catheter body, each optical fiber including a plurality of spaced apart Bragg gratings; a detector operatively coupled to the respective optical fibers and configured to detect light signals reflected by the respective Bragg gratings; and a controller operatively coupled to the detector and configured to determine a twist of a portion of the catheter body based upon an analysis of detected light signals, wherein a respective portion of each optical fiber encapsulated in the portion of the catheter body for which the controller determines a twist traverses the catheter body wall to form one or more respective triangular rosettes, each of the one or more triangular rosettes comprising at least three, non-parallel sides, each side having a respective Bragg grating.
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15. A medical instrument system, comprising:
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an elongate flexible instrument body; an optical fiber substantially encapsulated in a wall of the instrument body, the optical fiber including a plurality of Bragg gratings unevenly spaced along the optical fiber; a detector operatively coupled to the optical fiber and configured to detect respective light signals reflected by the Bragg gratings; and a controller operatively coupled to the detector and configured to determine both a bending and a twist of at least a portion of the instrument body based upon an analysis of detected reflected light signals from the unevenly spaced gratings.
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16. An instrument system, comprising:
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an elongate body; an optical fiber coupled to the elongate body, the optical fiber including one or more Bragg gratings; a localization sensor coupled to the elongate body; a detector operatively coupled to the optical fiber and configured to detect respective light signals reflected by the one or more Bragg gratings; and a controller operatively coupled to the detector and configured to determine both a bending and a twist of at least a portion of the elongate body based on detected reflected light signals and on a relative position of the localization sensor. - View Dependent Claims (17, 18, 19)
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20. A method of measuring twist of an elongate flexible medical instrument, the instrument having an optical fiber grating sensor coupled thereto such that a longitudinal axis of at least a portion of the optical fiber is substantially orthogonal to a longitudinal axis of the instrument, the method comprising:
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detecting, with a detector operatively coupled to the optical fiber grating sensor, light signals reflected by respective fiber gratings in the portion of the optical fiber that is substantially orthogonal to the longitudinal axis of the instrument; and analyzing the light signals to determine a twist of at least a portion of the instrument body. - View Dependent Claims (21, 22)
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Specification