JP6550348B2 - Biopsy material digital imaging device - Google Patents

Description

  The present invention relates to a biopsy material digital imaging device for digitally imaging biopsy material collected from a subject.

  A biopsy is used to make a pathological diagnosis of a lesion and is indispensable for the diagnosis of the lesion. Pathological specimens used in pathological diagnosis are embedded with a biopsy material collected from a subject in an embedding material such as paraffin, sliced into thin pieces of a predetermined thickness by a microtome, and then the thin pieces are attached to a slide glass and fixed. A predetermined staining is performed on a thin section specimen obtained by heating for a time, and a cover glass is covered to produce it (see, for example, Patent Document 1). The pathological specimen thus prepared is used for pathological diagnosis by a pathologist. That is, a pathologist observes a pathological specimen using a microscope device or the like, and performs pathological diagnosis based on morphological information such as changes in size and shape of cell nuclei and changes in patterns as tissues. .

Japanese Patent Application Publication No. 2007-57255

  Biopsies used in biopsies are often collected with forceps under an endoscope. Gastrointestinal forceps biopsy can also be performed at a small-scale medical institution such as a medical clinic, but the preparation of pathological specimens is outsourced to an inspection center or the like because it requires equipment for producing pathological specimens and a person such as a pathologist. Often.

  It is an object of the present invention to provide a biopsy digital imaging device that samples and digitally captures biopsy material in a small scale medical institution such as a clinic.

The biopsy material digital imaging apparatus of the present invention is placed in a cold storage that can control the temperature in the storage, and is paraffinified into a capsule that is taken out of a capsule cassette containing a plurality of capsules and contains a biopsy material together sequentially supplies the processing sequence solution comprises a paraffin treatment sequence solution supply and recovery unit for sequentially recovering the paraffin treatment sequence solution supplied to the capsule, the biopsies were introduced by opening the charged gate the A blocking device which is accommodated in a capsule, transports the capsule to the paraffinification processing solution supply and recovery unit and blocks with paraffin , and a transport device which transports a biopsy material blocked by the blocking device; A collection device for collecting on a film a thin section of the blocked biopsy material transported by the transport device; A staining apparatus for staining the thin section of the biopsy material collected on the film by the take-up apparatus, an imaging apparatus for imaging the thin section of the biopsy material stained by the staining apparatus, and the imaging apparatus Providing a storage unit for storing digital data of the image of the thin section of the biopsy material captured by the imaging device, and a transport unit for transporting the film from the sampling device to the imaging device via the staining device. It features.

  According to the present invention, it is possible to provide a biopsy digital imaging device that samples and digitally captures biopsy material in a small scale medical institution such as a clinic.

It is a figure showing composition of a biopsy material digital imaging device concerning an embodiment. It is a figure showing composition of a blocking device concerning an embodiment. It is a figure which shows the structure of the conveyance apparatus which concerns on embodiment. It is a figure showing the composition of the extraction device concerning an embodiment. It is a figure showing composition of a film concerning an embodiment. It is a figure showing composition of a dyeing device concerning an embodiment. It is a figure showing composition of an imaging device concerning an embodiment. It is a figure showing the system configuration of the biopsy material digital imaging device concerning an embodiment.

  Hereinafter, a biopsy material digital imaging apparatus according to an embodiment will be described with reference to the drawings. FIG. 1 is a diagram showing the configuration of a biopsy material digital imaging apparatus according to an embodiment. The biopsy material digital imaging device 2 is a device installed in a small scale medical institution such as a clinic, and is a device for digitizing a biopsy material collected in a clinic or the like.

  As shown in FIG. 1, the biopsy material digital imaging device 2 is a blocker 4 that blocks a biopsy material with paraffin as an embedding material, and a thin film of a biopsy material blocked by the blocker 4 The collecting device 6 for collecting the sections on a film, the staining device 8 for staining a thin section of the biopsy material collected on the film by the sampling device 6, and the thin section of the biopsy material stained by the staining device 8 A control unit 12 is provided to comprehensively control the whole of the imaging device 10 and the biopsy material digital imaging device 2. Here, the blocking device 4 and the collecting device 6 are installed in a cold storage 40 provided with a temperature control unit (not shown) capable of controlling the temperature in the storage. Here, the cold storage 40 is divided into a cold storage 40a in which the blocking device 4 is installed and a cold storage 40b in which the collecting device 6 is installed, and the cold storage 40a and the cold storage 40b are each independently inside the storage The temperature can be controlled.

  As shown in FIG. 2, the blocking device 4 sequentially supplies a paraffin treatment solution to a capsule 41 made of PET (polyethylene terephthalate) containing the biopsy material 3 and performs the paraffin treatment supplied to the capsule 41. A paraffinic processing series solution supply and recovery unit 42 for sequentially recovering series solutions is provided.

  In the cold storage 40a, a capsule cassette 43 containing a plurality of capsules 41, a gripper cassette 45 containing a plurality of grippers 44 formed of a magnetic material for closing the opening of the capsule 41, a capsule 41 The transport unit 46 transports the placement unit 46a on which the document is placed, and the elevating unit 47 that raises and lowers the placement unit 46a immediately below the paraffinic processing series solution supply and recovery unit 42. Further, the loading gate 48 for loading the biopsy material 3 is provided at the upper part of the cold storage 40a, and the mounting portion 46a on which the capsule 41 is placed on the wall dividing the cold storage 40a and the cold storage 40b. A discharge gate 49 is provided to discharge the

  The harvesting device 6 comprises a delivery device 60 for delivering the biopsy material block 50 to the position of the microtome 62. As shown in FIG. 3, the transport device 60 includes an electromagnet 60a and moves vertically downward to magnetically attach the gripping body 44 to move vertically upward moving portion 60b and vertically moving portion 60b in the horizontal direction. And a horizontal moving unit 60c for moving the

  As shown in FIG. 4, the collecting device 6 is a microtome 62 for slicing the biopsy material block 50 to a predetermined thickness, and a PET (polyethylene terephthalate) for sampling thin sections 63 sliced by the microtome 62. And a film supply device 68 for supplying the film 66. The film 66 supplied by the film supply device 68 is fed to the dyeing device 8 by the guides 68a, 68b, 68c, 68d constituting the film transport unit. The film 66 is coated with an adhesive on the surface from which the thin section 63 is to be taken, and as shown in FIG. 5, the holes into which the teeth of the gears provided on the guides 68a, 68b, 68c, 68d fit on both sides. It has 66a. Further, the collecting device 6 is provided with a charging device 67 for charging the film 66 on the upstream side of the guide 68 b, and heats the thin section 63 collected on the film 66 on the downstream side of the guide 68 d to fix it on the film 66. A fixing device 69 is provided.

  As shown in FIG. 6, the staining apparatus 8 sequentially supplies a staining series solution to the staining section 82 containing the film 66 on which the thin section 63 is fixed, and the staining series solution supplied to the staining section 82. And a dye series solution supply and recovery unit 84 for sequentially recovering the The stainer 82 is provided with a plurality of film guides 86 for folding and advancing the film 66. Here, the film guide 86 which functions as a film transport unit is provided with a gear similar to the guides 68a, 68b, 68c and 68d. Moreover, the stainer 82 is configured to be able to control the temperature of the staining series solution supplied into the stainer 82 by a temperature control unit (not shown).

  As shown in FIG. 7, the imaging device 10 includes an immersion objective lens 10 a that magnifies and observes the thin section 63 fixed to the film 66. A cover film supply unit 88 is provided which supplies a cover film 89 having xylene resistance such as PET (polyethylene terephthalate) covering the film 66 to which the thin section 63 is fixed. Further, a guide 87 for conveying the thin section 63 fixed to the film 66 with the cover film 89 superposed on the film 66 to the position immediately below the immersion objective lens 10a is provided. Further, a guide 90 for transporting the film 66 covered by the cover film 89 and a recovery unit 92 for recovering the film 66 covered by the cover film 89 are provided. Here, the guides 87 and 90 function as film transport units.

  As shown in FIG. 8, the biopsy material digital imaging device 2 includes a control unit 12 that generally controls the entire device, and the control unit 12 includes a blocking device 4, a sampling device 6, and a staining device 8. , An imaging device 10, a storage unit 13 for storing digital data of an image of a thin slice 63 of a biopsy material imaged by the imaging device 10, a display unit 14 for displaying an image of the thin slice 63 of a biopsy material, etc. An input unit 15 for inputting an instruction to the inspection digital imaging apparatus 2 and the like, and a communication unit 16 for communicating with the pathological diagnosis clinic system 17 installed in the pathological diagnosis clinic are connected.

  Next, a process of digitizing the biopsy material 3 by the biopsy material digital imaging device 2 according to the embodiment will be described. Here, the processing in the biopsy material digital imaging device 2 is performed based on the control by the control unit 12. When digitizing the biopsy material 3 by the biopsy material digital imaging device 2, first, the feeding gate 48 provided on the upper portion of the cold storage 40 of the blocking device 4 is opened to load the biopsy material 3. Do. The temperature in the cold storage 40 is raised to 70 ° C. by the control of the temperature control unit. Here, when the biopsy material 3 is loaded, the capsule 41 taken out of the capsule cassette 43 is placed on the mounting table 46 a and transported by the transport unit 46 immediately below the loading gate 48. The capsule 41 into which the biopsy material 3 has been charged is transported by the transport unit 46 to immediately below the paraffin conversion processing series solution supply and recovery unit 42. The mounting table 46 a is raised by the raising and lowering unit 47 immediately below the paraffinification processing series solution supply and recovery unit 42. Thus, the supply and recovery pipe 42 a of the paraffinification processing series solution supply and recovery unit 42 is inserted into the capsule 41.

  The paraffinified treatment series solution supply and recovery unit 42 sequentially supplies the paraffinified treatment series solution into the capsule 41 through the supply and recovery pipe 42a, and sequentially collects the paraffinified treatment series solution supplied to the capsule 41. Here, the paraffinized treatment series solution is (1) formalin, (2) water, (3) water + alcohol, (4) alcohol + water, (5) alcohol, (6) alcohol + xylene, (7) xylene, (8) It is composed of paraffin, and (1) formalin is supplied into the capsule 41 and then recovered. Next, (2) water is supplied into the capsule 41 and then recovered. The solutions (3) to (8) are also sequentially supplied and recovered. In addition, the recovered paraffinified treatment series solution is reused or discarded.

  When this process is completed, the elevating unit 47 lowers the capsule 41 placed on the mounting table 46 a, and the transport unit 46 transports the capsule 41 just below the gripper cassette 45. Then, the opening of the capsule 41 is closed by the holding body 44 taken out of the holding body cassette 45. The capsule 41 whose opening is closed by the holding body 44 passes through the discharge gate 49 and is transported to the cold storage 40b. Then, the temperature in the cold storage 40b is lowered to 4 ° C. by the control of the temperature control unit. As a result, paraffin becomes solid and preparation of the biopsy block 50 is completed.

  In the biopsy material block 50, as shown in FIG. 3, the grippers 44 are magnetically attached and lifted by the electromagnet 60a provided in the vertical moving unit 60b of the transport device 60, and the horizontal moving unit 60c reaches the position of the microtome 62 Be moved. The biopsy block 50 is fixed at this position by a fixing portion (not shown).

  The microtome 62 reciprocates in the direction of arrow A shown in FIG. 4 to sequentially slice the biopsy material block 50 to a predetermined thickness. The thin sections 63 sliced by the microtome 62 are sequentially collected on the film 66 supplied by the film supply device 68 and charged by the charging device 67. The thin section 63 collected on the film 66 is heated by the fixing device 69. Thus, the paraffin of the thin section 63 is melted and solidified again, whereby the thin section 63 is fixed on the film 66.

  In the dyeing apparatus 8, the film 66 on which the thin section 63 is fixed by the film guide 86 is folded back and disposed in the dyeing rod 82, and after heating and melting paraffin, the dyeing series solution supply and recovery unit 84 The stain series solution is sequentially supplied to the weir 82 and the stain series solution supplied to the stain 82 is sequentially collected. Here, the staining series solution includes (1) xylene, (2) xylene + alcohol, (3) alcohol, (4) alcohol + water, (5) water, (6) staining solution A, (7) staining solution B, (8) It is constituted by the staining solution C, and (1) xylene is first supplied into the stainer 82 and then recovered. Next, (2) xylene + alcohol is supplied into the stainer 82 and then recovered. The solutions (3) to (8) are also sequentially supplied and recovered. Here, the staining series solution supplied into the stainer 82 is controlled to an optimum temperature according to the type of staining.

  After the staining of the thin section 63 fixed to the film 66 is completed, the film 66 to which the thin section 63 is fixed is conveyed by the film guide 87 immediately below the imaging device 10. Further, the cover film 89 is fed out from the cover film supply unit 88 to cover the thin section 63 fixed to the film 66. Then, in a state in which a liquid such as water is interposed between the immersion objective lens 10 a and the cover film 89, the imaging device 10 captures a magnified image of the thin slice 63. Image data of an image captured by the imaging device 10 is stored in the storage unit 13. The film 66 and the cover film 89 are conveyed by the film guide 90 and collected by the film collection unit 92.

  The image data of the thin slice 63 stored in the storage device 13 is read by the control unit 12 as designated by the doctor of the clinic using the input unit 15 and displayed on the display unit 14. Therefore, the doctor of the clinic can make a pathological diagnosis based on the image of the thin section 63 displayed on the display unit 14. Further, the image data of the thin slice 63 stored in the storage device 13 is transmitted to the pathological diagnosis clinic system 17 via the communication unit 16. In this case, a pathological diagnosis is performed by a pathologist of a pathological diagnosis clinic, and the diagnosis result is notified to the doctor of the clinic.

2 ... biopsy material digital imaging device, 3 ... biopsy material, 4 ... blocking device, 6 ... collecting device, 8 ... staining device, 10 ... imaging device, 10 a ... immersion objective lens, 12 ... control unit, 13 ... Storage unit 14 ... Display unit 15 ... Input unit 16 ... Communication unit 17 ... Pathology diagnostic clinic system 40, 40a, 40b ... Cold storage, 41 ... Capsule, 42 ... Paraffinized processing solution supply and recovery unit, 50 ... biopsy material block, 62 ... microtome, 63 ... thin section, 82 ... staining stain, 84 ... staining series solution supply and recovery unit

Claims (5)

It is installed in a cold storage which can control the temperature in the storage, and sequentially supplied to the capsules containing the biopsy material taken out from the capsule cassette containing the plurality of capsules and containing the biopsy material, comprising a paraffin treatment sequence solution supply and recovery unit for sequentially collecting the supplied the paraffin treatment sequence solution, the biopsies were introduced by opening the charged gate was housed in the capsule, the paraffin process the capsule A blocking device that transports to a series solution supply and recovery unit and blocks with paraffin ;
A transport device for transporting biopsy material blocked by the blocking device;
A collecting device for collecting thin sections of the blocked biopsy material transported by the transport device on a film;
A staining device for staining the thin section of the biopsy material collected on the film by the collection device;
An imaging device for imaging the thin section of the biopsy material stained by the staining device;
A storage unit for storing digital data of the image of the thin section of the biopsy material imaged by the imaging device;
A biopsy material digital imaging device, comprising: a transport unit configured to transport the film from the sampling device to the imaging device via the staining device; The collection device is installed in a cold storage that can control the temperature in the storage,
A microtome for slicing the blocked biopsy by the blocking device,
A film supply device for supplying a film for collecting the thin section sliced by the microtome;
A fixing device that heats and fixes the thin section collected on the film on the film;
Biopsies digital imaging apparatus according to claim 1, characterized in that it comprises a. The staining device
A stain containing the film to which the thin section is fixed;
A staining series solution supply and recovery unit that sequentially supplies a staining series solution to the staining bath and sequentially recovers the staining series solution supplied to the staining bath;
A temperature control unit that controls the temperature of the staining series solution supplied to the staining stain;
Biopsies digital imaging apparatus according to claim 1, characterized in that it comprises a. The biopsy digital imaging device according to claim 1 , wherein the imaging device captures an image formed by an immersion objective lens.   The biopsy digital imaging apparatus according to any one of claims 1 to 4, further comprising a communication device that communicates with a pathological diagnosis clinic system.

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