JP2010185789A5 - - Google Patents

Description

In order to solve the above problems, the present invention proposes the following means.
The thin-section preparation apparatus according to the present invention is a thin-section preparation apparatus that cuts an embedded block in which a biological sample is embedded to prepare a thin section having a desired section thickness, and supports the embedded block A body, a cutter for cutting the embedding block, a moving means for relatively moving the support and the cutter along one direction, and cutting the embedding block by the cutter, and the one direction Adjusting means for adjusting the position of the embedding block in the other direction relative to the cutter, and humidifying the embedding block. A humidifying unit; and a control unit that controls the moving unit, the adjusting unit, and the humidifying unit, and the control unit preliminarily humidifies the embedding block by the humidifying unit, and then the moving unit. The support and the cutter are moved forward relatively, the embedded block is preliminarily cut by the cutter, and then the embedded block is fully humidified by the humidifying means and the support is supported by the adjusting means. After the body and the cutter are relatively moved forward by the section thickness, the support and the cutter are relatively moved forward at the same speed as the preliminary cutting by the moving means, and the embedding is performed. The block is subjected to main cutting with the cutter to produce the thin slice, and the control unit starts from the preliminary humidification to the time when the preliminary cutting is started and after the main humidification until the main cutting is started. The time is made the same, and the preliminary humidification and the main humidification are performed under the same humidification conditions.

The thin-section preparation method according to the present invention includes a support that supports an embedded block in which a biological sample is embedded, a cutter that cuts the embedded block, and the support and the cutter in one direction. Moving forward relative to each other, moving the cutting block by the cutter, moving the support and the cutter relative to each other along the other direction intersecting the one direction, Using a thin-section preparation apparatus that includes an adjusting unit that adjusts the position of the embedded block in the other direction with respect to a cutter, and a humidifying unit that humidifies the embedded block, the embedded block is cut to a desired level. A thin-section preparation method for preparing a thin section having a section thickness, wherein the embedding block is pre-humidified by the humidifying means, and the support and the cutter are moved by the moving means. A preliminary cutting step in which the pre-humidified embedded block is preliminarily cut by the cutter, a main humidification step in which the pre-cut embedding block is fully humidified by the humidifying means, and the preliminary After the cutting step, the adjusting unit moves the support and the cutter relatively forward by the section thickness by the adjusting unit, and after the adjusting step, the supporting unit and the cutter are relatively moved by the moving unit. And a main cutting step of moving forwardly moving at the same speed as in the preliminary cutting step and main cutting the embedding block that has been humidified by the cutter to produce the thin slice, and after the preliminary humidification step. the time until starting the pre-cutting step, the a time after the humidification step until to start the present cutting process, with but is the same, the pre-wet step及And performing each of the present humidification step under the same humidification conditions.

According to this invention, in the main cutting process, the support and the cutter are relatively moved forward by the moving means at the same speed as in the preliminary cutting process. Furthermore, the time from the start of the pre-humidification process to the start of the pre-cutting process is the same as the time from the start of the main humidification process to the start of the main cutting process. Performed under the same humidification conditions.
As described above, the humidifying conditions of the embedding block to be cut in the main cutting process, and the waiting time until the main cutting is performed after the main humidification, the humidifying conditions of the embedding block cut in the pre-cutting, and the pre-humidification It can be made to correspond with the cutting waiting time until it is pre-cut after being done. Thereby, it becomes possible to make the variation | change_quantity of the said other direction resulting from the humidification in the embedding block in this cutting process correspond with the said variation | change_quantity in a preliminary | backup cutting process. Accordingly, the thin section can be cut with high accuracy by the section thickness by performing the main cutting process after performing the adjustment process in which the support and the cutter are relatively moved forward by the section thickness by the adjusting means. .

Next, as shown in FIG. 10, the support body 2 and the cutter 3 are relatively moved forward by the X stage 4, and the embedding block B that has been humidified is finally cut by the cutter 3 to produce a thin slice S. This cutting process is performed. At this time, the main cutting process is performed so that the time t4 from the start of the main humidification process to the start of the main cutting process is the same as the time t2 from the start of the prehumidification process to the start of the precutting process. Further, the support 2 and the cutter 3 are relatively moved forward at the same speed v as in the preliminary cutting process.
In the present embodiment, the main cutting process is performed based on the time t2 from when the computer 22 stores the preliminary humidification process stored in the preliminary cutting process to the start of the preliminary cutting process, and the time when the main humidifying process is completed. Start. At this time, the stage controller 21 moves the embedded block B forward relative to the cutter 3 at the moving speed v.

According to the thin section manufacturing apparatus 1 and the thin section manufacturing method described above, in the main cutting process, the support 2 and the cutter 3 are relatively moved forward by the X stage 4 at the same speed v as in the preliminary cutting process. . Furthermore, the time t2 from the start of the preliminary humidification step to the start of the preliminary cutting step is the same as the time t4 from the start of the main humidification step to the start of the main cutting step , and the preliminary humidification step and the main humidification step. Each is performed under the same humidification condition H.
As described above, the humidification condition H of the embedding block B to be cut in the main cutting process, and the cutting waiting time from the main humidification to the main cutting are determined as the humidification condition H of the embedding block B cut in the preliminary cutting. , And the waiting time t3 from the preliminary humidification to the preliminary cutting can be made to coincide with each other. Thereby, it becomes possible to make the change amount of the Z direction resulting from the humidification in the embedding block B in the main cutting process coincide with the change amount in the preliminary cutting process. Therefore, after performing the main adjustment process in which the support 2 and the cutter 3 are relatively moved forward by the section thickness h1 by the Z stage 5, the thin section S is increased by the section thickness h1 by performing the main cutting process. It can be produced with high accuracy.

Claims (4)

A thin-slice preparation device that cuts an embedded block in which a biological sample is embedded to produce a thin section having a desired section thickness,
A support for supporting the embedding block;
A cutter for cutting the embedded block;
Moving means for relatively moving the support and the cutter along one direction, and cutting the embedding block by the cutter;
Adjusting means for relatively moving the support and the cutter along the other direction intersecting the one direction, and adjusting the position of the embedding block with respect to the cutter in the other direction;
Humidifying means for humidifying the embedded block;
A controller for controlling the moving means, the adjusting means, and the humidifying means,
The controller is
After pre-humidifying the embedding block by the humidifying means,
The support and the cutter are relatively moved forward by the moving means, the embedded block is preliminarily cut by the cutter,
Then, the main block is humidified by the humidifying means and the support and the cutter are relatively moved forward by the section thickness by the adjusting means.
The support and the cutter are relatively moved forward at the same speed as the preliminary cutting by the moving means, and the embedded block is cut by the cutter to produce the thin slice,
The controller is
The time until the preliminary cutting is started after the preliminary humidification is made the same as the time until the main cutting is started after the main humidification,
A thin-slice preparation apparatus, wherein the preliminary humidification and the main humidification are performed under the same humidification conditions. The thin-slice manufacturing device according to claim 1,
Disposing means for sucking and discarding cutting waste cut from the embedded block by the cutter,
The control section sucks and discards the cutting waste cut by preliminary cutting by the discarding means. A support that supports an embedding block in which a biological sample is embedded;
A cutter for cutting the embedded block;
Moving means for relatively moving the support and the cutter along one direction, and cutting the embedding block by the cutter;
Adjusting means for relatively moving the support and the cutter along the other direction intersecting the one direction, and adjusting the position of the embedding block with respect to the cutter in the other direction;
Humidifying means for humidifying the embedded block;
A thin-slice preparation method using a thin-slice preparation device comprising: cutting the embedded block to prepare a thin section having a desired section thickness,
A pre-humidifying step of pre-humidifying the embedding block with the humidifying means;
A preliminary cutting step in which the support and the cutter are relatively moved forward by the moving means, and the embedded block preliminarily humidified is preliminarily cut by the cutter;
A main humidification step of subjecting the pre-cut embedded block to main humidification by the humidifying means;
After the preliminary cutting step, an adjusting step of moving the support and the cutter relatively forward by the section thickness by the adjusting means;
After the adjustment step, the support and the cutter are relatively moved forward by the moving means at the same speed as in the preliminary cutting step, and the humidified embedded block is main cut by the cutter. A main cutting step for producing the thin slice;
With
The time from the start of the preliminary humidification step to the start of the preliminary cutting step is the same as the time from the start of the main humidification step to the start of the main cutting step ,
A thin-slice manufacturing method, wherein each of the preliminary humidification step and the main humidification step is performed under the same humidification conditions. The thin-section preparation method according to claim 3,
Comprising a disposal step of sucking and discarding cutting waste cut from the embedded block by the cutter;
In the discarding step, the cutting piece cut in the preliminary cutting step is sucked and discarded.