Light scanning devices of a water-tight structure to be inserted into a body cavity to obtain optical information on inside of a biological tissue
First Claim
Patent Images
1. A light scanning device comprising:
- a light scanning probe having an insertion part which can be inserted into a body cavity, said probe also having a light scanner at said distal portion of said insertion part to scan light so as to illuminate a subject area within said body cavity, wherein said insertion part and said light scanner form a main body of said probe, and wherein at least said light scanner is formed so as to be water-tight;
a controlling device to which said light scanning probe is readily detachably attachable and which receives detection signals from said scanning probe, and a connector which is secured to said main body in a water-tight manner and which is connectable to said controlling device so as to detachably attach said light scanning probe thereto, wherein said light scanner includes an electronic scanning device electrically connected to said controlling device, said electronic scanning device including at least one reflective surface that is pivotable about at least two axes, each of said axis extending in a direction different from the other.
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Abstract
A light scanning device has a tip structure which includes a light scanning part connected to a light source, and which is insertable into a body cavity and is formed so as to be water-tight. A controlling part controls the light scan through the tip structure, and the tip structure and the controlling part are also connected to each other in a water-tight manner by a slender tube through which a plurality of electrical cables pass. An electric connector is fixed with the proximal end portion of the tube in a water-tight manner, and is electrically connectable so as to be water-tight with and removable from this controlling part.
133 Citations
48 Claims
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1. A light scanning device comprising:
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a light scanning probe having an insertion part which can be inserted into a body cavity, said probe also having a light scanner at said distal portion of said insertion part to scan light so as to illuminate a subject area within said body cavity, wherein said insertion part and said light scanner form a main body of said probe, and wherein at least said light scanner is formed so as to be water-tight;
a controlling device to which said light scanning probe is readily detachably attachable and which receives detection signals from said scanning probe, and a connector which is secured to said main body in a water-tight manner and which is connectable to said controlling device so as to detachably attach said light scanning probe thereto, wherein said light scanner includes an electronic scanning device electrically connected to said controlling device, said electronic scanning device including at least one reflective surface that is pivotable about at least two axes, each of said axis extending in a direction different from the other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 30)
said light scanning device further comprising a clear cap which is removably connectable to said insertion part at said opening thereof so as to form a water-tight seal, wherein said micromachined scanning element includes a light emitting portion which is positioned to be opposed to said clear cap. -
3. A light scanning device according to claim 1, wherein
said light scanning probe includes a slender, flexible, and cylindrical sheath which is capable of being inserted into a forceps channel of an endoscope, said sheath having at least a tip composed of a type of material with good light-transparency, said tip being formed with no openings; -
a flexible coil shaft provided within said sheath and which is rotatable around a longitudinal axis thereof;
a single-mode fiber provided within said flexible coil shaft and having a base end and a tip thereof fixed to a base end and tip of said coil shaft, respectively, wherein light emitted from a low coherence light source is admitted into said base end of said single-mode fiber; and
a lens positioned at a certain distance from the tip of said fiber to focus light emitted from said fiber onto said light scanner, and said controlling device includes a rotation driving device to confer torque to said coil shaft.
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4. A light scanning device according to claim 3, further comprising a water-tight cap which is capable of being fitted with the outer surface of said sheath so as to provide a water-tight seal and which is removably connectable to said connector.
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5. A light scanning device according to claim 1, wherein
said light scanning probe includes a sheath including a flexible tube which is capable of being inserted into a forceps channel of an endoscope and which has an opening at each of its proximal end and its distal end; -
a pipe adhesively fixed to the distal end of said sheath and composed of a type of material with good light transparency;
a cap which seals the distal end of said pipe in a water-tight manner;
a coil shaft provided within said sheath and which is rotatable around a longitudinal axis thereof;
a single-mode fiber provided within said flexible coil shaft and having a base end and a tip thereof fixed to a base end and tip of said coil shaft, respectively, wherein light emitted from a low coherence light source is admitted into said base end of said single mode fiber; and
a lens positioned at a certain distance from the tip of said fiber to focus light emitted from said fiber onto said light scanner, and said controlling device includes a rotation driving device to confer torque to said coil shaft.
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6. A light scanning device according to claim 5, further comprising a water-tight cap which is capable of being fitted with the outer surface of said sheath so as to provide a water-tight seal and which is removably connectable to said connector.
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7. A light scanning device according to claim 1, wherein
said light scanning probe has a point source of light which supplies light thereto, and said controlling device has a reflected light detector to detect light reflected from the subject area within said body cavity. -
8. A light scanning device according to claim 1, wherein
said light scanning probe has a reflected light detector to detect light reflected from the subject area within said body cavity, and said controlling device has a point source of light which supplies light to said light scanning probe. -
30. A light scanning device according to claim 1, wherein said scanner includes a silicon micromachined scanning element, and said main body of said probe includes a clear sheath.
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9. A light scanning device comprising:
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a light scanning probe having an insertion part which can be inserted into a body cavity, said probe also having a light scanner at a distal portion of said insertion part to scan light so as to illuminate a subject area within said body cavity, wherein said insertion part and said light scanner form a main body of said probe, and wherein said light scanner is formed so as to be water-tight;
a controlling device to which said light scanning probe is readily detachably attachable and which receives detection signals from said light scanning probe, and a connector which is secured to said main body in a water-tight manner and which is connectable to said controlling device, said connector being formed so as to be water-tight, wherein said light scanner includes an electronic scanning device electrically connected to said controlling device, said electronic scanning device including at least one reflective surface that is pivotable about at least two axes, each of said axes extending in a direction different from the other. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
said light scanning device further comprising a clear cap which is removably connectable to said insertion part at said opening thereof so as to form a water-tight seal, wherein said micromachined scanning element includes a light emitting portion which is positioned to be opposed to said clear cap. -
12. A light scanning device according to claim 9, further comprising a water-tight cap on said connector so as to provide a water-tight seal.
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13. A light scanning device according to claim 9, wherein
said light scanning probe includes a slender, flexible, and cylindrical sheath which is capable of being inserted into a forceps channel of an endoscope, said sheath having at least a tip composed of a type of material with good light-transparency, said tip being formed with no openings; -
a flexible coil shaft provided within said sheath and which is rotatable around a longitudinal axis thereof;
a single-mode fiber provided within said flexible coil shaft and having a base end and a tip thereof fixed to a base end and tip of said coil shaft, respectively, wherein light emitted from a low coherence light source is admitted into said base end of said single-mode fiber; and
a lens positioned at a certain distance from the tip of said fiber to focus light emitted from said fiber onto said light scanner, and said controlling device includes a rotation driving device to confer torque to said coil shaft.
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14. A light scanning device according to claim 13, further comprising a water-tight cap which is capable of being fitted with the outer surface of said sheath so as to provide a water-tight seal and which is removably connectable to said connector.
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15. A light scanning device according to claim 9, wherein
said light scanning probe includes a sheath including a flexible tube which is capable of being inserted into a forceps channel of an endoscope and which has an opening at each of its proximal end and its distal end; -
a pipe adhesively fixed to the distal end of said sheath and composed of a type of material with good light transparency;
a cap which seals the distal end of said pipe in a water-tight manner;
a coil shaft provided within said sheath and which is rotatable around a longitudinal axis thereof;
a single-mode fiber provided within said flexible coil shaft and having a base end and a tip thereof fixed to a base end and tip of said coil shaft, respectively, wherein light emitted from a low coherence light source is admitted into said base end of said single mode fiber; and
a lens positioned at a certain distance from the tip of said fiber to focus light emitted from said fiber onto said light scanner, and said controlling device includes a rotation driving device to confer torque to said coil shaft.
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16. A light scanning device according to claim 15, further comprising a water-tight cap which is capable of being fitted with the outer surface of said sheath so as to provide a water-tight seal and which is removably connectable to said connector.
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17. A light scanning device according to claim 9, wherein
said light scanning probe has a point source of light which supplies light thereto, and said controlling device has a reflected light detector to detect light reflected from the subject area within said body cavity. -
18. A light scanning device according to claim 9, wherein
said light scanning probe has a reflected light detector to detect light reflected from the subject area within said body cavity, and said controlling device has a point source of light which supplies light to said light scanning probe.
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19. A light scanning probe, comprising:
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a cylindrical container closed at a first end thereof, said cylindrical container being insertable into a body cavity;
a portion of said first end being transparent;
an electronic light scanning member in an interior of said first end;
said electronic light scanning member including a substrate, a light source and at least one reflective surface disposed over said substrate, wherein at least a portion of said at least one reflective surface can be given an electrical potential with respect to said substrate, said electrical potential being effective to provide an electrostatic force to move said at least one reflective surface;
a connector attached at a second end of said container to form a fluid impermeable seal between said connector and said second end; and
a control device which can communicate with said light scanning member;
whereinsaid connector is attachable to said control device. - View Dependent Claims (20, 21, 22)
said connector includes a plug attachable to said control device; and
said plug is fluid impermeable.
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22. A light scanning probe according to claim 19, wherein:
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said control device includes a switch accessible to said connector;
said switch and said connector can cooperate to control said light source; and
said switch prevents activation of said light source when not engaged with said connector.
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23. A light scanning probe, comprising:
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a cylindrical container closed at a first end thereof, said cylindrical container being insertable into a body cavity;
a portion of said first end being transparent;
an electronic light scanning member in an interior of said first end;
said electronic light scanning member including a substrate, a light source and at least one reflective surface, wherein at least a portion of said at least one reflective surface can be given an electrical potential with respect to said substrate, said electrical potential being effective to provide an electrostatic force to move said at least one reflective surface;
a connector attached at a second end of said container to form a fluid impermeable seal between said connector and said second end; and
a control device which can communicate with said light scanning member;
whereinsaid connector is attachable to said control device and said light source is a semiconductor laser. - View Dependent Claims (24, 35, 36, 45)
said light scanning probe has a point source of light which supplies light thereto, and said controlling device has a reflected light detector to detect light reflected from the subject area within said body cavity. -
36. A light scanning device according to claim 24, wherein
said light scanning probe has a reflected light detector to detect light reflected from the subject area within said body cavity, and said controlling device has a point source of light which supplies light to said light scanning probe. -
45. A light scanning device according to claim 35, wherein
said light scanning probe has a point source of light which supplies light thereto, and said controlling device has a reflected light detector to detect light reflected from the subject area within said body cavity.
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25. A light scanner in a fluid impermeable endoscope, comprising:
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a light source;
at least one reflective surface on a movable member that can receive light from said light source;
a diffraction grating effective to receive light directed from said at least one reflective surface, said diffraction grating focusing light passing therethrough;
a substrate adjacent said at least one movable member;
a portion of said at least one movable member being effective to receive an electric charge;
an electrical potential between said at least one moveable member and said substrate when said portion receives an electric charge; and
said electrical potential can urge said at least one movable reflective surface with respect to said substrate.
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26. A light scanning device comprising:
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a light scanning probe including a main body, said main body having an insertion part being insertable into a body cavity and a light scanner at a distal end of said insertion part to scan light to illuminate a subject area within a body cavity, said light scanner including a micromachined scanning element that comprises silicon;
a hollow pipe, said micromachined scanning element being disposed inside said hollow pipe;
a front cover watertightly sealing a distal end of said pipe;
a rear cover watertightly sealing a proximal end of said pipe, and watertightly secured to said insertion part so as to enclose said light scanner within said pipe;
a clear window watertightly disposed on said distal end of said pipe to accommodate a transmission of light to and from said micromachined scanning element;
a controlling device to which said light scanning probe is readily detachably attachable and which receives detection signals or light from said scanning probe; and
a connector which is watertightly secured to said main body and which is connectable to said controlling device so as to detachably attach said light scanning probe thereto. - View Dependent Claims (27, 28, 29, 31, 32, 33, 34)
said light scanning probe includes a point source of light which supplies light to said micromachined scanning element; a reflected light detector which detects light reflected from said subject area and which transforms the detected light into an electrical signal; and
an optical system which focuses said light from said point source of light and which focuses the reflected light from said subject area at said reflected light detector, and said controlling device includes a signal processor to process the electrical detection signal from said subject area through said reflected light detector;
a point source of light driver to electrically drive said point source of light; and
a light scan driver to electrically drive said micromachined scanning element, wherein when said light scanning probe is electrically connected to said controlling device by said connector, said micromachined scanning element and said light scan driver are electrically connected, said point source of light and said point source of light driver are electrically connected, and said reflected light detector and said signal processor are electrically connected.
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32. A light scanning device according to claim 31, wherein
said light scanner includes a micromachined scanning mirror that includes a silicon member; -
a silicon nitride hinge which supports and rotates said micromachined scanning mirror;
a reflecting surface which is conducted by the silicon member in order to receive the light from said light source; and
a mirror driver to electrostatically move said micromachined scanning mirror in order to scan the light toward a first direction and a second direction which is orthogonal to said first direction.
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33. A light scanning device according to claim 26, wherein
said light scanning probe includes a single-mode fiber to introduce light to illuminate said subject area within said body cavity, and which also receives light reflected from said subject area; - and
an optical system which focuses light onto said subject area while focusing said reflected light from said subject area onto said single-mode fiber, and said controlling device includes a point source of light;
a light-introducer which introduces light emitted from said point source of light to said single-mode fiber, while receiving and introducing said reflected light from said subject area through said single-mode fiber;
a light-separator which separates said reflected light from said light-introducer and said light from said point source of light;
a reflected light detector which detects said reflected light separated out by said light separator; and
a light scan driver which drives said light scanner, wherein when said light scanning probe is connected to said controlling device by said connector, said single-mode fiber and said light-introducer are optically connected, while said reflected light is separated from said light from said point source of light by said light-separator, and said light scanner and said light scan driver are electrically connected.
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34. A light scanning device according to claim 33, wherein
said light scanner includes a micromachined scanning mirror including a silicon member; -
a silicon nitride hinge which supports and rotates said micromachined scanning mirror a reflecting surface which is conducted by the silicon member in order to receive the light from said light source; and
a mirror driver to electrostatically move said micromachined scanning mirror in order to scan the light toward a first direction and a second direction which is orthogonal to said first direction.
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37. A light scanning device comprising:
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a light scanning probe including a main body, said main body having an insertion part being insertable into a body cavity and a light scanner at a distal end of said insertion part to scan light to illuminate a subject area within a body cavity, said light scanner including a micromachined scanning element that comprises silicon;
a hollow pipe, said micromachined scanning element being disposed inside said hollow pipe;
a front cover watertightly sealing a distal end of said pipe;
a rear cover watertightly sealing a proximal end of said pipe, and watertightly secured to said insertion part so as to enclose said light scanner;
a clear window watertightly disposed on said distal end of said pipe to accommodate a transmission of light to and from said micromachined scanning element;
a controlling device to which said light scanning probe is readily detachably attachable and which receives detection signals or light from said light scanning probe, and a watertight connector which is watertightly secured to said main body and which is connectable to said controlling device. - View Dependent Claims (38, 39, 40, 41, 42, 43, 44, 46)
said light scanning probe includes a point source of light which supplies light to said micromachined scanning element; a reflected light detector which detects light reflected from said subject area and which transforms the detected light into an electrical signal; and
an optical system which focuses said light from said point source of light and which focuses the reflected light from said subject area at said reflected light detector, and said controlling device includes a signal processor to process the electrical detection signal from said subject area through said reflected light detector;
a point source of light driver to electrically drive said point source of light; and
a light scan driver to electrically drive said micromachined scanning element, wherein when said light scanning probe is electrically connected to said controlling device by said connector, said micromachined scanning element and said light scan driver are electrically connected, said point source of light and said point source of light driver are electrically connected, and said reflected light detector and said signal processor are electrically connected.
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42. A light scanning device according to claim 41, wherein
said light scanner includes a micromachined scanning mirror including a silicon member; -
a silicon nitride hinge which supports and rotates said micromachined scanning mirror;
a reflecting surface which is conducted by the silicon member in order to receive the light from said light source; and
a mirror driver to electrostatically move said micromachined scanning mirror in order to scan the light toward a first direction and a second direction which is orthogonal to said first direction.
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43. A light scanning device according to claim 37, wherein
said light scanning probe includes a single-mode fiber to introduce light to illuminate said subject area within said body cavity, and which also receives light reflected from said subject area; - and
an optical system which focuses light onto said subject area while focusing said reflected light from said subject area onto said single-mode fiber, and said controlling device includes a point source of light;
a light-introducer which introduces light emitted from said point source of light to said single-mode fiber, while receiving and introducing said reflected light from said subject area through said single-mode fiber;
a light-separator which separates said reflected light from said light-introducer and said light from said point source of light;
a reflected light detector which detects said reflected light separated out by said light-separator; and
a light scan driver which drives said light scanner, wherein when said light scanning probe is connected to said controlling device by said connector, said single-mode fiber and said light-introducer are optically connected, while said reflected light is separated from said light from said point source of light by said light-separator, and said light scanner and said light scan driver are electrically connected.
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44. A light scanning device according to claim 43, wherein
said light scanner includes a micromachined scanning mirror including a silicon member; -
a silicon nitride hinge which supports and rotates said micromachined scanning mirror;
a reflecting surface which is conducted by the silicon member in order to receive the light from said light source; and
a mirror driver to electrostatically move said micromachined scanning mirror in order to scan the light toward a first direction and a second direction which is orthogonal to said first direction.
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46. A light scanning device according to claim 37, wherein
said light scanning probe has a reflected light detector to detect light reflected from the subject area within said body cavity, and said controlling device has a point source of light which supplies light to said light scanning probe.
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47. A light scanning probe, comprising:
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a cylindrical container closed at a first end;
a portion of said first end being transparent;
a light scanning member in an interior of said first end;
said light scanning member including a light source, a substrate and at least one movable reflective surface, a portion of which can be given an electric potential with respect to said substrate, said electrical potential being effective to provide an electrostatic force to move said at least one reflective surface;
a connector attached at a second end of said container to form a fluid impermeable seal between said connector and said second end; and
a control device which can communicate with said light scanning member to control a motion of said reflective surface;
whereinsaid connector is attachable to said control device. - View Dependent Claims (48)
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Specification