JP2019055192A - Imaging device - Google Patents

Abstract

To provide an imaging device that can be moved easily, can execute imaging in an arbitrary place, and can prevent an imaging part from colliding with a wall surface, etc. when it is moved.SOLUTION: A first arm member 31 and a second arm member 32 in an arm mechanism 30 are in a stand-by attitude in which the first arm member and the second arm member are close to each other, and an illumination/imaging part 12 is arranged at a position on the rear side in an advancing direction above a carriage 11 with respect to the arm mechanism. By arranging the illumination/imaging part 12 at a position on the rear side in an advancing direction of the carriage 11 with respect to the arm mechanism 30, the illumination/imaging part 12 can be prevented from colliding with a wall surface, etc. Also, at this time, the first arm member 31 and the second arm member 32 are surrounded by a sub-arm 41 and the illumination/imaging part 12. Therefore, the first arm member 31 and the second arm member 32 can be prevented from being separated from each other when an imaging device is moved.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an imaging apparatus that irradiates a fluorescent dye that has entered a body of a subject with excitation light and images fluorescence emitted from the fluorescent dye.

  A technique called near-infrared fluorescence imaging is used for surgery. In this near-infrared fluorescence imaging, indocyanine green (ICG) as a fluorescent dye is injected into the affected area. When this indocyanine green is irradiated with near-infrared light having a wavelength of about 810 nm (nanometer) as excitation light, the indocyanine green emits near-infrared fluorescence having a wavelength of about 845 nm. This fluorescence is photographed by an imaging device capable of detecting near infrared light, and the image is displayed on a display unit such as a liquid crystal display panel. According to this near-infrared fluorescence imaging, it is possible to observe blood vessels, lymph vessels, and the like existing at a depth of about 20 mm from the body surface.

  Such near-infrared fluorescence imaging is used for tumor surgery and the like. For example, when performing breast cancer surgery in breast surgery, it is necessary to specify the position of the sentinel lymph node. This sentinel lymph node is the lymph node that cancer cells reach first on the lymph flow. If cancer cells are not found in the sentinel lymph node, it can be determined that there is no breast cancer metastasis in the axillary lymph node, and dissection of the axillary lymph node can be omitted. Therefore, it is effective to specify the position of this sentinel lymph node by near infrared fluorescence imaging.

  In recent years, a technique for fluorescently labeling a tumor and using it for surgical navigation by using a special fluorescent dye has attracted attention mainly in brain surgery. As such a fluorescent dye, 5-aminolevulinic acid (5-ALA / 5-Aminolevulinic Acid) is used. When this 5-aminolevulinic acid (hereinafter referred to as “5-ALA” for short) is used, PpIX (protoporphyrinIX / protoporphyrin) in which 5-ALA that has entered the body of the subject is a fluorescent substance is used. Nine). This PpIX has the property of being specifically accumulated in the tumor. Further, when visible light having a wavelength of about 410 nm is irradiated toward PpIX which is a metabolite of 5-ALA, red visible light having a wavelength of about 630 nm is emitted from PpIX as fluorescence. By observing the fluorescence from this PpIX, it becomes possible to confirm the transfer of cancer.

  Patent Document 1 discloses an intensity distribution image of near-infrared fluorescence obtained by irradiating an indocyanine green excitation light to a living organ to which indocyanine green is administered, and before indocyanine green administration. Compared with the cancer lesion distribution image obtained by applying X-ray, nuclear magnetic resonance or ultrasound to the subject's organs, it is detected by the intensity distribution image of near-infrared fluorescence, but the cancer lesion distribution image Discloses a data collection method for collecting data of a region that is not detected as secondary lesion region data of cancer.

International Publication No. 2009/139466

  In order to widely use such an imaging apparatus that captures fluorescence from the fluorescent dye, it is preferable that the imaging apparatus itself be movable. For this reason, it is conceivable to employ an imaging device having a movable carriage structure with wheels. In addition, in such an imaging apparatus that captures fluorescence from a fluorescent dye, an assistant may hold the imaging unit for capturing fluorescence by hand, but it is fixed at a predetermined position using an arm mechanism. A possible configuration is preferable. For this reason, it is conceivable that such an imaging apparatus includes a carriage having wheels and a structure in which an imaging unit is connected to the carriage by an arm mechanism. The arm mechanism is preferably foldable for the purpose of reducing the installation location.

  On the other hand, in the case of adopting such a configuration, when an imaging apparatus having a carriage structure is moved to an imaging position and a subject is photographed, an operation may be performed in which an imaging unit is arranged in front of the traveling direction of the carriage. Above preferred. For this reason, an imaging | photography part will be in the state protruded from the upper direction of the trolley | bogie to the front side of the advancing direction of a trolley | bogie. When the imaging apparatus having such a configuration is employed, when the imaging apparatus is moved, there is a high possibility that the imaging unit becomes a protrusion and collides with a wall surface or the like.

  The present invention has been made to solve the above-described problems, and is easy to move and can take a picture at an arbitrary place, and can prevent the photographing part from colliding with a wall surface or the like even during the movement. An object is to provide an imaging apparatus.

  The invention according to claim 1 is an imaging apparatus that irradiates a fluorescent dye that has entered the body of a subject with excitation light and images the fluorescence emitted from the fluorescent dye, and includes a wheel and moves. A movable carriage, an arm mechanism disposed on the carriage, an imaging unit for photographing the fluorescence, and a pivotable arrangement with respect to the arm mechanism in a state of supporting the imaging unit, The imaging unit is moved between a position on the front side in the traveling direction of the carriage with respect to the arm mechanism and a position on the rear side in the traveling direction of the carriage with respect to the arm mechanism and above the carriage. And a sub arm to be provided.

  According to the first aspect of the present invention, movement is facilitated by the action of the carriage having wheels, and photography can be performed at an arbitrary place. At this time, due to the action of the sub-arm, the photographing unit is moved from the position on the front side in the traveling direction of the carriage with respect to the arm mechanism to the position on the rear side above the carriage. It is possible to prevent a collision with a wall surface or the like.

1 is a perspective view of an imaging apparatus according to the present invention. 1 is a side view of an imaging apparatus according to the present invention. 1 is a plan view of an imaging apparatus according to the present invention. 2 is a schematic diagram of an illumination / photographing unit 12. FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of an imaging apparatus according to the present invention. FIG. 2 is a side view of the imaging apparatus according to the present invention. FIG. 3 is a plan view of the imaging apparatus according to the present invention.

  The imaging apparatus according to the present invention is for irradiating a fluorescent dye that has entered the body of a subject with excitation light and photographing fluorescence emitted from the fluorescent dye. The provided carriage 11, the arm mechanism 30 disposed near the front of the carriage 11 in the traveling direction (left direction in FIGS. 2 and 3) on the upper surface of the carriage 11, and the arm mechanism 30 via the sub arm 41 An illumination / photographing unit 12 and a monitor 15 are provided. A handle 14 used when moving the carriage 11 is attached to the rear of the carriage 11 in the traveling direction. A recess 16 for mounting a remote control for remotely operating the imaging apparatus is formed on the top surface of the carriage 11.

  The arm mechanism 30 described above is disposed on the front side in the traveling direction of the carriage 11. The arm mechanism 30 includes a first arm member 31 connected to a support portion 37 disposed on a support column 36 erected on the front side in the traveling direction of the carriage 11 by a hinge portion 33. The first arm member 31 can swing with respect to the carriage 11 through the support column 36 and the support portion 37 by the action of the hinge portion 33. The monitor 15 described above is attached to the support column 36.

  A second arm member 32 is connected to the upper end of the first arm member 31 by a hinge portion 34. The second arm member 32 can swing with respect to the first arm member 31 by the action of the hinge portion 34. For this reason, the first arm member 31 and the second arm member 32 are the first arm member 31 and the second arm member 32, as indicated by the phantom line with the reference C in FIG. 1 and 3 and a solid line marked with a reference A in FIG. 1 to FIG. 3, and a first arm member 31 It is possible to take a standby posture in which the second arm member 32 approaches.

  A support portion 43 is connected to the lower end of the second arm member 32 by a hinge portion 35. The support portion 43 can swing with respect to the second arm member 32 by the action of the hinge portion 35. A rotating shaft 42 is supported on the support portion 43. Then, the sub arm 41 that supports the illumination / photographing unit 12 rotates around the rotation shaft 42 disposed at the tip of the second arm member 32. For this reason, the illumination / photographing unit 12 moves the arm as shown by a solid line marked with a symbol A in FIGS. 1 to 3 or a virtual line marked with a symbol C in FIG. As shown by the position on the front side in the traveling direction of the carriage 11 with respect to the mechanism 30 and the phantom line marked with the symbol B in FIGS. 2 and 3, the rear side in the traveling direction of the carriage 11 relative to the arm mechanism 30. Move between positions.

  As shown by the solid line with reference A in FIGS. 1 to 3, reference B is given in FIGS. 2 and 3 in a state where the first arm member 31 and the second arm member 32 are in a standby posture in proximity to each other. As indicated by the imaginary line, the first arm member 31 and the second arm member 30 in the arm mechanism 30 are in a state where the illumination / photographing unit 12 is disposed at a position on the rear side in the traveling direction of the carriage 11 with respect to the arm mechanism 30. The arm member 32 is surrounded by the sub arm 41 and the illumination / imaging unit 12.

  FIG. 4 is a schematic diagram of the illumination / imaging unit 12.

  The illumination / imaging unit 12 includes an imaging unit 21 having a plurality of imaging elements capable of imaging visible light and near-infrared light, a first light source 22 disposed on the outer periphery of the imaging unit 21, And a second light source 23 disposed on the outer periphery of the one light source 22. The first light source 22 emits near-infrared light having a wavelength of 810 nm, which is excitation light for exciting indocyanine green as a fluorescent dye. From indocyanine green irradiated with near-infrared light of 810 nm, near-infrared light having a peak of about 845 nm is emitted as fluorescence. The second light source 23 emits white light (visible light).

  In addition, in this embodiment, although the illumination and imaging | photography part 12 which integrated the 1st light source 22 and the 2nd light source 23, and the imaging | photography part 21 is used, the 1st light source 22 and the 2nd light source 23, You may arrange | position the imaging | photography part 21 separately.

  When performing a surgical operation using the imaging apparatus having the above-described configuration, the operator operates the handle 14 to move the carriage 11 and moves the imaging apparatus to a place where the operation is performed.

  At this time, the first arm member 31 and the second arm member 32 in the arm mechanism 30 are configured so that the first arm member 31 and the second arm member 32 are connected to each other as shown by a solid line marked with a symbol A in FIGS. 2 and 3, the illumination / photographing unit 12 is located on the rear side in the traveling direction of the carriage 11 with respect to the arm mechanism 30. Placed in position.

  For this reason, by arranging the illumination / imaging unit 12 at a position on the rear side in the traveling direction of the carriage 11 with respect to the arm mechanism 30, the illumination / imaging unit 12 can collide with a wall surface or the like even when the apparatus is moved. It becomes possible to prevent. In this state, the first arm member 31 and the second arm member 32 in the arm mechanism 30 are surrounded by the sub arm 41 and the illumination / photographing unit 12. For this reason, it is possible to prevent the first arm member 31 and the second arm member 32 from being separated when the apparatus is moved.

  Next, as shown by the solid line with reference numeral A in FIGS. 1 to 3, the sub-arm is arranged so that the illumination / photographing unit 12 is disposed at the front side in the traveling direction of the carriage 11 with respect to the arm mechanism 30. 41 is rotated around the rotation shaft 42. 2, the first arm member 31 and the second arm member 32 are photographed with the first arm member 31 and the second arm member 32 opened at a predetermined angle, as indicated by the phantom line with the reference C. The posture is set, and the illumination / imaging unit 12 is moved to a position facing the affected part of the subject.

  In this way, when the setting of the imaging apparatus is completed, indocyanine green is injected into the subject by injection. Thereafter, near infrared light as excitation light is irradiated from the first light source 22 toward the affected area of the subject. As a result, indocyanine green injected into the body of the subject generates fluorescence in the infrared region having a peak at approximately 845 nm. In this state, the vicinity of the affected area of the subject is imaged by the imaging unit 21 in the illumination / imaging unit 12.

  The fluorescent image photographed by the photographing unit 21 is displayed on the monitor 15. This fluorescent image is also displayed on a large display unit installed separately from the imaging apparatus. At this time, the visible image of the subject imaged by the imaging unit 21 may be displayed on the monitor 15 or the like together with the fluorescent image or combined with the fluorescent image.

  When the use of the imaging apparatus is finished, the first arm member 31 and the second arm member 32 in the arm mechanism 30 are connected to the first arm member 31 and the second arm member 32 as indicated by the solid line denoted by reference numeral A in FIGS. The two arm members 32 are in a stand-by posture, and the illumination / photographing unit 12 is moved in the direction of travel of the carriage 11 relative to the arm mechanism 30 as indicated by the phantom line with reference numeral B in FIGS. Place in the rear position. Then, the operator operates the handle 14 to move the imaging apparatus to a necessary place.

  In the above-described embodiment, the case where indocyanine green is used as the fluorescent dye has been described. However, other fluorescent dyes such as the above-described 5-ALA may be used.

DESCRIPTION OF SYMBOLS 11 Carriage 12 Illumination / imaging | photography part 13 Wheel 14 Handle 15 Monitor 21 Imaging part 22 1st light source 23 2nd light source 30 Arm mechanism 31 1st arm member 32 2nd arm member 33 Hinge part 34 Hinge part 35 Hinge part 36 Support | pillar 41 Sub arm 42 Rotating shaft

Claims (1)

An imaging device that irradiates excitation light to a fluorescent dye that has entered the body of a subject and images fluorescence emitted from the fluorescent dye,
A movable carriage with wheels,
An arm mechanism disposed on the carriage;
An imaging unit for imaging the fluorescence;
In a state where the photographing unit is supported, the photographing unit is disposed so as to be rotatable with respect to the arm mechanism. A sub-arm that is moved between a position on the rear side in the traveling direction of the carriage and an upper position of the carriage;
An imaging apparatus comprising:

Images