System for detecting the shape of an endoscope using source coils and sense coils
First Claim
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1. An endoscope shape detection system, comprising:
- a first coil to be inserted into a subject;
a second coil placed at a predetermined position for sensing said first coil;
at least one third coil placed at a predetermined position;
a transmitting and receiving device for permitting transmission and reception of a first magnetic signal between said first coil and second coil, and transmission and reception of a second magnetic signal between said third coil and second coil; and
an arithmetic unit for calculating first position information representing the position of said first coil to said second coil according to a first detection signal resulting from the transmission and reception of said first magnetic signal, and calculating second position information representing the position of said third coil relative to said second coil according to a second detection signal resulting from the transmission and reception of said second magnetic signal;
wherein said second coil includes at least;
a first magnetic detection unit made by arranging first, second, third, and fourth uniaxial origination coils along the same straight line to form a first line of sense coils while orienting them in the same direction; and
a second magnetic detection unit made by arranging fifth, sixth, seventh, and eighth uniaxial origination coils along the same straight line to form a second line of sense coils, which is not parallel to the straight line along which said first, second, third, and fourth uniaxial origination coils of said first magnetic detection unit are arranged, while orienting them in the same direction.
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Abstract
An endoscope shape detection system has a CPU included in a control unit. The CPU performs frequency sampling of digital data to calculate coordinates indicating the spatial positions of source coils incorporated in an insertion unit of an endoscope received in a patient and of marker coils placed on a patient. An inserted state of the insertion unit of the endoscope is estimated based on the calculated coordinate data indicating the positions of the source coils. Display data based on the shape of the endoscope is produced from the calculated coordinate data indicating the positions of the source coils, and output to a video RAM. Display data of the marker coils is produced from the calculated coordinate data indicating the positions of the marker coils, and output to the video RAM. Consequently, the positions of the markers are depicted together with the shape of the endoscope. The positional relationship between the insertion unit of the endoscope and a patient'"'"'s body can therefore be ascertained.
44 Citations
16 Claims
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1. An endoscope shape detection system, comprising:
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a first coil to be inserted into a subject;
a second coil placed at a predetermined position for sensing said first coil;
at least one third coil placed at a predetermined position;
a transmitting and receiving device for permitting transmission and reception of a first magnetic signal between said first coil and second coil, and transmission and reception of a second magnetic signal between said third coil and second coil; and
an arithmetic unit for calculating first position information representing the position of said first coil to said second coil according to a first detection signal resulting from the transmission and reception of said first magnetic signal, and calculating second position information representing the position of said third coil relative to said second coil according to a second detection signal resulting from the transmission and reception of said second magnetic signal;
wherein said second coil includes at least;
a first magnetic detection unit made by arranging first, second, third, and fourth uniaxial origination coils along the same straight line to form a first line of sense coils while orienting them in the same direction; and
a second magnetic detection unit made by arranging fifth, sixth, seventh, and eighth uniaxial origination coils along the same straight line to form a second line of sense coils, which is not parallel to the straight line along which said first, second, third, and fourth uniaxial origination coils of said first magnetic detection unit are arranged, while orienting them in the same direction.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 13)
wherein said third coil consists of a connection unit for connecting said third coil to said arithmetic unit, a coil body having a magnetic coil incorporated therein, and a cable linking said connection unit and coil body, and has a gripping irregular part formed on the outer surface of said coil body. -
10. An endoscope shape detection system according to claim 9, wherein said coil body has a fastening unit for fastening said coil body on a body surface.
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12. An endoscope shape detection system according to claim 1, wherein said motion estimating unit has a magnitude-of-motion calculating unit for calculating a magnitude of motion from the three-dimensional positions of a coil located near the distal end of said insertion unit which are estimated at different time instants.
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13. An endoscope shape detection system according to claim 1, wherein said freezing unit freezes an image when a magnitude of motion estimated by said motion estimating unit is smaller than a predetermined threshold.
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11. An endoscope shape detection system for use with an endoscope, comprising:
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at least one first coil to be inserted into a subject;
at least one second coil placed at a predetermined position for sensing said first coil means;
a third coil placed at a predetermined position;
a transmitting and receiving unit for permitting transmission and reception of a first magnetic signal between said first coil and second coil, and transmission and reception of a second magnetic signal between said third coil and second coil; and
an arithmetic unit for calculating first position information representing the position of said first coil relative to said second coil according to a first detection signal resulting from the transmission and reception of said first magnetic signal, and calculating second position information representing the position of said third coil relative to said second coil according to a second detection signal resulting from the transmission and reception of said second magnetic signal, wherein said first coil consists of a plurality of coils; and
wherein said plurality of coils is incorporated in an insertion unit of the endoscope to be inserted into said subject; and
further comprising an imaging unit, incorporated in the distal part of said insertion unit of said endoscope, for imaging an object in said subject; and
a freezing unit for freezing an image projected by said imaging unit, wherein said arithmetic unit includes a motion estimating unit for estimating a motion made by the distal part of said insertion unit of said endoscope according to the three-dimensional position of a coil located in the distal part of said insertion unit of said endoscope; and
a freezing controller, activated in response to a freeze instruction issued to said freezing unit, for controlling said freezing unit according to the results of motion estimation performed by said motion estimating unit.- View Dependent Claims (14, 15)
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16. An endoscope shape detection system, comprising:
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at least one first coil to be inserted into a subject;
a second coil placed at a predetermined position for sensing said first coil means;
a third coil placed at a predetermined position;
a transmitting and receiving unit for permitting transmission and reception of a first magnetic signal between said first coil and second coil, and transmission and reception of a second magnetic signal between said third coil and second coil; and
an arithmetic unit for calculating first position information representing the position of said first coil relative to said second coil according to a first detection signal resulting from the transmission and reception of said first magnetic signal, and calculating second position information representing the position of said third coil relative to said second coil according to a second detection signal resulting from the transmission and reception of said second magnetic signal, wherein said first coil consists of a plurality of coils; and
wherein said plurality of coils is incorporated in an insertion unit of an endoscope to be inserted into said subject; and
further comprising an imaging unit, incorporated in the distal part of said insertion unit of said endoscope, for imaging an object in said subject;
a first motion estimating unit for estimating a motion shown by an image using an image projected by said imaging unit; and
a freezing unit for freezing an image projected by said imaging unit, wherein said arithmetic unit includes a second motion estimating unit for estimating a motion made by the distal part of said insertion unit of said endoscope according to the three-dimensional position of a coil located in the distal part of said insertion unit of said endoscope;
a freezing controller, activated in response to a freeze instruction issued to said freezing unit, for controlling said freezing unit according to the results of first motion estimation and second motion estimation performed by said first motion estimating unit and second motion estimating unit, respectively.
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Specification
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Current AssigneeOlympus Corporation
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Original AssigneeOlympus Corporation
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InventorsHara, Masanao, Oaki, Yoshinao, Okazaki, Tsugio, Ishii, Hiroshi, Hasegawa, Jun, Onoda, Fumiyuki, Moriyama, Hiroki, Uchimura, Sumihiro, Taniguchi, Akira, Nonami, Tetsuo, Hirata, Yasuo, Kawabata, Takeshi, Tsuji, Kazutaka, Miyagi, Takayasu, Toriyama, Seiki, Sasagawa, Katsuyoshi, Aizawa, Chieko, Yoshizawa, Yasuhiro
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Primary Examiner(s)Leubecker, John P.
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Application NumberUS10/199,889Publication NumberTime in Patent Office755 DaysField of Search600/101, 600/102, 600/117, 600/118, 600/424, 600/407, 128/899, 128/903, 324/219, 324/246, 340/573.1US Class Current600/117CPC Class CodesA61B 1/005 Flexible endoscopesA61B 1/009 with bending or curvature d...A61B 1/05 characterised by the image ...A61B 1/31 for the rectum, e.g. procto...A61B 2034/2051 Electromagnetic tracking sy...A61B 2034/2072 Reference field transducer ...A61B 34/20 Surgical navigation systems...A61B 5/06 Devices, other than using r...A61B 5/064 using markers A61B5/062 tak...A61B 5/7257 using Fourier transformsA61B 90/36 Image-producing devices or ...A61B 90/361 Image-producing devices, e....
