Endoscope system

US 6,846,286 B2
Filed: 05/21/2002
Issued: 01/25/2005
Est. Priority Date: 05/22/2001
Status: Expired due to Fees

First Claim

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1. An endoscope system, comprising:

an endoscope that includes a flexible inserting tube configured to be inserted into a human body;

a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting a local bending state of said flexible inserting tube at the location of said bending sensor;

a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;

a monitor connected to said computer to display said graphical image generated by said computer, and an elongated member positioned within said flexible inserting tube and extending substantially over the entire length of said flexible inserting tube, said elongated member comprising an instrument channel for guiding instruments therethrough to the distal end of said flexible inserting tube, wherein said plurality of bending sensors are mounted to said elongated member at locations spaced along the longitudinal direction thereof, wherein said plurality of bending sensors are attached on a surface of a flexible substrate formed in a ribbon-like shape, said substrate being mounted on said elongated member to bend together with said elongated member, and wherein said substrate is embedded in a wall of said elongated member.

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Abstract

An endoscope system is provided, including an endoscope having a flexible inserting tube to be inserted into a human body and a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof. Each of the bending sensors detects the local bending state of the flexible inserting tube at the location the bending sensor are provided. A computer adapted to receive data on the local bending state from each of the plurality of bending sensors is also provided. The computer generates a graphical image representing the geometrical configuration of the flexible inserting tube from the data on the local bending states. A monitor connected to the computer to display the graphical image generated by the computer.

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26 Claims

1. An endoscope system, comprising:
- an endoscope that includes a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting a local bending state of said flexible inserting tube at the location of said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer, and an elongated member positioned within said flexible inserting tube and extending substantially over the entire length of said flexible inserting tube, said elongated member comprising an instrument channel for guiding instruments therethrough to the distal end of said flexible inserting tube, wherein said plurality of bending sensors are mounted to said elongated member at locations spaced along the longitudinal direction thereof, wherein said plurality of bending sensors are attached on a surface of a flexible substrate formed in a ribbon-like shape, said substrate being mounted on said elongated member to bend together with said elongated member, and wherein said substrate is embedded in a wall of said elongated member.
- View Dependent Claims (2, 3, 4)
- - 2. The endoscope system according to claim 1, wherein said plurality of bending sensors are mounted on said elongated member along at least two lines parallel to the longitudinal direction of said flexible inserting tube, said at least two lines spaced from each other in the circumferential direction of said elongated member.
  - 3. The endoscope system according to claim 1, further comprising:
    - a channel provided in said flexible inserting tube, said channel extending substantially over the entire length of the flexible inserting tube, a proximal end of said flexible inserting tube forming an opening for detachably inserting said elongated member into said channel.
  - 4. The endoscope system according to claim 3, wherein the distal end of said channel is sealed to prevent the entry of fluid.

5. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states; and
  
  a monitor connected to said computer to display said graphical image generated by said computer, wherein said flexible inserting tube has an outer wall and said plurality of bending sensors are attached on a surface of a flexible substrate formed in a ribbon-like shape, said substrate being embedded in said outer wall, wherein said outer wall includes an inner layer and an outer layer, said inner layer covering said substrate and comprising a resin having higher adhesive properties than said outer layer, said outer layer covering said inner layer and comprising a resin having higher chemical resistance than said inner layer.
- View Dependent Claims (6)
- - 6. The endoscope system according to claim 5, wherein said outer wall comprises a resin extrusion.

7. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a substrate comprising a ribbon-like shape and arranged within said flexible inserting tube parallel to the longitudinal direction of said flexible inserting tube, said plurality of bending sensors being mounted on said substrate in two lines each parallel to the longitudinal direction of said substrate and spaced from each other in a transverse direction of said substrate, said bending sensors belonging to one of said two lines being mounted on an upper surface of said substrate, and bending sensors belonging to the other of said two lines being mounted on a lower surface of said substrate.

8. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a flexible substrate comprising a ribbon-like shape and arranged within said flexible inserting tube parallel to the longitudinal direction of said flexible inserting tube, said plurality of bending sensors being attached on a surface of said substrate, wherein each of said bending sensors comprises an optical fiber having a bending sensitive portion, said bending sensitive portion being configured to change light transmittance in accordance with the curvature thereof, and wherein said optical fibers are brought closer to one side of said substrate at the proximal end of said substrate to form a fiber bundle.

9. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each, said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a flexible sheath configured to detachably cover said flexible inserting tube, said plurality of bending sensors being embedded in the wall of said sheath and distributed over the flexible inserting tube by covering said flexible inserting tube with said sheath.
- View Dependent Claims (10, 11)
- - 10. The endoscope system according to claim 9, wherein said flexible inserting tube fits tightly in said sheath and flexes together with said sheath essentially without looseness.
  - 11. The endoscope system according to claim 9,wherein said sheath has an opening, at a distal end thereof such that a distal end portion of said flexible inserting tube protrudes from said opening as said sheath covers said flexible inserting tube.

12. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a light guide extending through said flexible inserting tube for transmitting illumination light to a tip end of said flexible inserting tube;
  
  an optical connector configured to optically connect a proximal end of said light guide to a device including a light source for providing the illumination light;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a memory, disposed in said optical connector and configured to store calibration data which said computer utilizes to determine the bending state of said flexible inserting tube based on the data received from said bending sensors.
- View Dependent Claims (13)
- - 13. The endoscope system according to claim 12, further comprising:
    - an image sensor connected to a tip portion of said inserting tube;
      
      a signal line connected to said image sensor and extending through said flexible inserting tube; and
      
      an electrical connector configured to electrically connect a proximal end of said signal line to a device for processing the output signal of said image sensor, wherein said memory is further disposed in said electrical connector.

14. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer;
  
  an ultrasonic probe mounted to a tip end of said flexible inserting tube, said ultrasonic probe emitting ultrasonic pulses and detecting echoes of said ultrasonic pulses;
  
  a signal line substrate having a ribbon-like shape and extending essentially throughout said flexible inserting tube, at least one signal line being connected to said signal line substrate, said single line being connected to said ultrasonic probe to transmit signals from said ultrasonic probe generated in accordance with the detection of said echoes; and
  
  an ultrasonic signal processor connected to said signal line to receive said signals and generate an ultrasonic tomogram therefrom, wherein said plurality of bending sensors are connected along said signal line substrate.
- View Dependent Claims (15, 16, 17)
- - 15. The endoscope system according to claim 14, wherein said plurality of bending sensors are connected along said signal line substrate in two lines each parallel to the longitudinal direction of said signal line substrate and spaced from each other in a transverse direction of said signal line substrate.
  - 16. The endoscope system according to claim 15, wherein said bending sensors belonging to one of said two lines are mounted on an upper surface of said signal line substrate, and said bending sensors belonging to the other of said two lines are mounted on a lower surface of said signal line substrate.
  - 17. The endoscope system according to claim 14, said signal line substrate comprising:
    - first and second signal line substrates each having a ribbon-like shape, said first and second signal line substrates arranged perpendicularly to each other and extending essentially throughout said flexible inserting tube, each of said first and second signal line substrates being provided with at least one signal line each said signal line being connected to said ultrasonic probe to transmit signals from said ultrasonic probe generated in accordance with the detection of said echoes.

18. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a substrate comprising a ribbon-like shape and provided throughout said flexible inserting tube, said bending sensors being connected along said substrate, wherein each of said bending sensors comprises an optical fiber having a bending sensitive portion, and wherein said optical fibers are provided on said substrate such that at least a portion of each of said optical fibers slides on said substrate as said substrate is bent.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The endoscope system according to claim 18, wherein said optical fibers are fixed to said substrate only at a vicinity of said bending sensitive portion.
  - 20. The endoscope system according to claim 19, wherein said optical fibers are fixed to said substrate only at said bending sensitive portion.
  - 21. The endoscope system according to claim 18, further comprising a cover overlapping said substrate to prevent said optical fibers from dropping out from said substrate.
  - 22. The endoscope system according to claim 21, wherein said substrates are provided with a plurality of grooves, each of said grooves receiving one of said optical fibers such that said at least a portion of said optical fiber slides along said groove.
  - 23. The endoscope system according to claim 22, wherein said plurality of said grooves are provided with lubricant for decreasing friction between said groove and said optical fiber received therein.
  - 24. The endoscope system according to claim 18, wherein said optical fibers are configured to have slack at the portion extending from said substrate.

25. An endoscope system, comprising:
- an endoscope having a flexible inserting tube configured to be inserted into a human body;
  
  an image sensor connected to a tip portion of said inserting tube;
  
  a signal line connected to said image sensor and extending through said flexible inserting tube;
  
  an electrical connector configured to electrically connect a proximal end of said signal line to a device for processing the output signal of said image sensor;
  
  a plurality of bending sensors distributed over the flexible inserting tube along the longitudinal direction thereof, each of said bending sensors detecting the local bending state of said flexible inserting tube at the location of each said bending sensor;
  
  a computer configured to receive data on said local bending state from each of said plurality of bending sensors, said computer generating a graphical image representing the geometrical configuration of said flexible inserting tube from said data on said local bending states;
  
  a monitor connected to said computer to display said graphical image generated by said computer; and
  
  a memory, disposed in said electrical connector, configured to store calibration data which said computer utilizes to determine the bending state of said flexible inserting tube based on the data received from said bending sensors.
- View Dependent Claims (26)
- - 26. The endoscope system according to claim 25, further comprising:
    - a light guide extending through said flexible inserting tube for transmitting illumination light to a tip end of said flexible inserting tube; and
      
      an optical connector configured to optically connect a proximal end of said light guide to a device including a light source for providing the illumination light, wherein said memory is further disposed in said optical connector.

Specification

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Litigation Campaign Assessment

Current Assignee
Hoya Corporation, The Jikei University School Of Medicine
Original Assignee
Pentax Corporation (Hoya Corporation), The Jikei University School Of Medicine
Inventors
Suzuki, Naoki, Sugiyama, Akira, Enomoto, Takayuki, Koizumi, Naoshi, Ohara, Kenichi, Matsushita, Minoru, Kawamura, Motoko, Hashiyama, Toshiyuki, Sumiyama, Kazuki, Nakamura, Tetsuya, Takami, Satoshi, Tarumoto, Tetsuya
Primary Examiner(s)
Leubecker, John P

Application Number

US10/150,927
Publication Number

US 20020183592A1
Time in Patent Office

980 Days
Field of Search

600/117, 600/118, 600/145, 600/424
US Class Current

600/145
CPC Class Codes

A61B 1/00071   Insertion part of the endos...

A61B 1/00098   Deflecting means for insert...

A61B 1/0052   Constructional details of c...

A61B 1/0055   Constructional details of i...

A61B 1/009   with bending or curvature d...

A61B 1/05   characterised by the image ...

A61B 5/06   Devices, other than using r...

A61B 5/064   using markers A61B5/062 tak...

A61B 8/12   in body cavities or body tr...

A61B 8/4254   using sensors mounted on th...

A61B 8/445   Details of catheter constru...

A61B 8/4466   involving deflection of the...

A61B 8/4488   the transducer being a phas...

Endoscope system

First Claim

3 Assignments

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Abstract

Citations

26 Claims

Specification

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Endoscope system

First Claim

3 Assignments

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0 Petitions

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Abstract

Citations

26 Claims

Specification

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Solutions

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