KR101184887B1 - Embeding mold for tissue sample - Google Patents

Abstract

The disclosed invention relates to a tissue sample embedding mold for making a paraffin block containing a sample, and more particularly, to a tissue sample embedding mold that makes it easy to separate a paraffin block from a mold and to more efficiently cut a paraffin block made. The tissue specimen embedding mold of the present invention is provided with a long groove forming a space in which the tissue specimen is placed in the central portion of the embedding mold in which a mold space in which molten paraffin is poured is formed, wherein the upper surface of the long groove A first inclined surface in a direction toward the center of the embedding mold is formed along the edge.

Description

Embedding mold for tissue sample

The present invention relates to a tissue sample embedding mold for making a paraffin block containing a sample, and more particularly, to a tissue sample embedding mold that makes it easy to separate a paraffin block from a mold and to more efficiently cut a paraffin block made. will be.

It is important to observe the morphological findings of specimens collected from the lesion for accurate diagnosis, proper treatment, and study of the disease. In order to observe these morphological changes, researchers frequently collect specimens of internal tissues by gastroscopy or needle biopsy and observe and analyze them.

In order to facilitate the morphological observation of cells or tissues, the fixation process of the sample is the most important. In well-immobilized tissues, organelles of cells are well maintained, but lack of immobilization results in incomplete morphological structures, and too much immobilization can result in the loss of antigen and nonspecific responses.

On the other hand, the observation of the specimen with the naked eye can determine the approximate characteristics of the lesion, but in most cases, the specimen is thinly sliced (thinned) and examined under a microscope for more precise observation.

However, it is extremely difficult to cut a soft tissue thinly, so for fixing and cutting a specimen, a specimen must be put in a solid to obtain a slice that is cut into it. The most widely used for this is paraffin, which has a low melting point, a function of penetrating and fixing inside tissue, and does not affect organelles of tissue cells.

The aid used to plant the tissue sample in paraffin is a tissue sample embedding mold. Embedding mold has a mold space in which molten paraffin is poured. The tissue is placed in this space, and the melted paraffin at 60 ° C is poured and then hardened to form a paraffin block.

However, the conventional embedding mold has a disadvantage in that the paraffin block is not easily separated from the mold or the paraffin block is broken when cutting and cutting off the tissue surroundings of the separated paraffin block. These disadvantages are not limited to difficult to obtain good paraffin fragments, but also need to be urgently solved in that the manpower required for the production and cutting of paraffin blocks is excessive, resulting in higher labor costs and medical costs.

The present invention is to solve the disadvantages of the conventional tissue specimen embedding mold as described above, in particular, it is easy to separate the paraffin block from the mold and the tissue specimen embedding mold that can more efficiently cut the paraffin block made Its purpose is to provide.

The present invention relates to a tissue specimen embedding mold which is a template for making a paraffin block housed therein, wherein the tissue specimen is placed in a central portion of the embedding mold in which a mold space in which molten paraffin is poured is formed. Is provided with a long groove to form a first inclined surface in the direction toward the center of the embedding mold is formed along the upper edge of the long groove.

The mold space surrounding the long groove may have a two-stage structure, such as a staircase, but a second inclined surface in a direction toward the center of the embedding mold may be formed along the tucked edge.

Herein, recesses recessed into two opposing points on the second inclined surface may be formed, respectively, and the surface of the recess may be part of a spherical surface.

In addition, both ends of the long groove may have a semi-circle or arc shape.

On the other hand, in the preferred embodiment of the present invention, the length of the long groove is 16mm, the width is characterized in that 7mm on the upper surface of the first inclined surface and 5mm on the lower surface.

At this time, the angle of the first inclined surface is preferably 60 ~ 80 °.

In addition, the thickness of the long groove is preferably 5mm.

Meanwhile, the tissue specimen embedding mold is preferably made of aluminum or aluminum alloy.

According to the tissue specimen embedding mold of the present invention having the above configuration, since the inclined surface toward the center of the embedding mold is formed along the upper edge of the long groove made suitable for the size of the tissue specimen, the paraffin block is easily separated. In addition, the cutting of the paraffin block can be made more efficiently.

1 is a perspective view of a tissue specimen embedding mold according to the present invention.
2 is a plan view of the embedding mold of FIG.
3 is a cross-sectional view of the embedding mold along line AA of FIG. 1.
4 is a view schematically showing a process of making a paraffin block using a tissue specimen embedding mold according to the present invention.

Hereinafter, a preferred embodiment of the tissue specimen embedding mold 10 according to the present invention with reference to the accompanying drawings will be described in detail. In the description of one embodiment of the present invention, descriptions of well-known configurations that will be apparent to those skilled in the art will be omitted so as not to obscure the subject matter of the present invention. In addition, when referring to the drawings it should be considered that the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

Meanwhile, terms used to describe one embodiment of the present invention and define relative positions of front, rear, left, right, top and bottom, and both sides thereof are based on the accompanying drawings. It should be noted, however, that such definitions of relative positions may be altered in an equivalent arrangement without changing the essential parts of the invention.

In addition, the terms to be described later are defined in consideration of functions or shapes in the present invention, which may vary depending on the intention or custom of the user or operator, and the definition of these terms should be interpreted based on the contents throughout the present specification. something to do.

As shown in Figures 1 to 3, the tissue specimen embedding mold 10 according to the present invention is a space in which the tissue specimen is placed in the central portion of the embedding mold 10 in which a mold space in which molten paraffin is poured is formed There is provided a long groove 11 to form a, characterized in that the first inclined surface 13 in the direction toward the center of the embedding mold 10 is formed along the upper edge of the long groove (11).

In particular, the length of the long groove 11 is 16mm, the width is 7mm on the upper surface of the first inclined surface 13 and 5mm on the lower surface, the angle of the first inclined surface 13 is preferably 60 ~ 80 ° Do.

First, according to the present invention, the first inclined surface 13 in the direction toward the center of the embedding mold 10 is formed along the upper edge of the long groove 11 to form the paraffin block 20 formed by solidifying the liquid paraffin. When separated from 10) the edge of the paraffin block 20 can be separated smoothly without breaking.

The length of the long groove 11 is 7 mm on the upper surface of the first inclined surface 13 and 5 mm on the lower surface thereof, and the first inclined surface 13 is also an element that determines the depth of the long groove 11. When the angle of) is 60 to 80 °, the separation of the paraffin block 20 is facilitated while maintaining the strength of the long groove 11 portion of the paraffin block 20 in which the tissue specimen 30 is planted.

In addition, it is good to make both ends 12 of the long grooves to have a semicircle or arc shape, because when the narrow portion of the long groove 11 has an angular shape, breakage of the paraffin block 20 easily occurs in this portion.

And since the length of the intestinal groove 11 is set to about 16 mm, since most of the specimens collected by endoscopy or needle biopsy have a small size, the length of the paraffin surrounding the tissue sample 30 must be made by making the intestinal groove 11 at this length. This is because the quantity is maintained in an appropriate amount that is not excessive. The paraffin block 20 must be made in this way, so that the amount of paraffin that is unnecessarily scraped off when cutting the paraffin block 20 can be reduced, thereby improving the work efficiency of the worker.

In addition, the mold space surrounding the long groove 11 may have a two-stage structure, such as a staircase, the second inclined surface 14 of the direction toward the center of the embedding mold 10 is formed along the jaw edge.

When the mold space surrounding the intestinal groove 11 is made into a two-stage structure, like a staircase, the paraffin block 20 has a shape of "凸" wider than the intestinal groove 11 in which the upper part of the intestinal groove 11 in which the tissue specimen is planted. . Accordingly, when the paraffin block 20 is cut, an operator can easily handle the paraffin block 20 without holding the planted portion of the tissue sample 30.

Here, making the second inclined surface 14 in the direction toward the center of the embedding mold 10 along the tucked edge of the two-stage structure, as in the case of the first inclined surface 13, is easy separation of the paraffin block 20. For

In addition, concave portions 15 which are concave into two opposing points on the second inclined surface 14 may be formed, respectively, when the paraffin block 20 is grabbed by holding a slightly thicker portion formed by the concave portion 15. The risk of breaking the paraffin block 20 is further reduced. It is desirable to make the surface of the recess 15 part of a round spherical surface in order to facilitate the processing of the embedding mold 10 and to maximize the strength of the finger gripped portion.

And it is preferable that the thickness of the intestinal groove 11 is 5mm, which suppresses the phenomenon of paraffin poured into the intestinal groove 11 in which the tissue specimen 30 is settled rapidly due to rapid heat loss. This is because the accuracy of diagnosis can be further improved by ensuring that is consistently settled.

Meanwhile, the tissue specimen embedding mold 10 is preferably made of aluminum or an aluminum alloy. The high thermal conductivity of aluminum or aluminum alloys helps the heat of dissolved paraffins to be easily released into the atmosphere, while the aluminum-based metals are easy to handle because they are workable and lightweight.

4 shows a method of making a paraffin block 20 and a section using the tissue specimen embedding mold 10 of the present invention having such a configuration. As described above, the tissue specimen embedding mold 10 of the present invention has a structure in which the paraffin block 20 can be easily separated without breakage, and is unnecessary because the amount of paraffin surrounding the tissue specimen 30 is not excessive. It has the advantage that the cutting operation of the paraffin block 20 can be started immediately without the prior work of cutting off the part.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible for those skilled in the art to which the art pertains. I will understand the point. Therefore, the true technical protection scope of the present invention will be defined by the claims.

Description of the Related Art
10: tissue specimen embedding mold 11: intestinal groove
12: both ends of the long groove 13: the first slope
14 second inclined surface 15 recessed portion
20: paraffin block 30: tissue specimen

Claims (9)

In the tissue sample embedding mold, which is a template for making a paraffin block contained therein,
In the center portion of the embedding mold is formed a mold space for blowing molten paraffin is provided with a long groove for forming a space for placing the tissue specimen, the direction toward the center of the embedding mold along the upper edge of the long groove A first inclined surface is formed, and the mold space surrounding the long groove has a two-stage structure, such as a staircase, but a second inclined surface is formed along the jaw edge toward the center of the embedding mold, and the second inclined surface. Tissue specimen embedding mold, characterized in that formed in each of the two concave portions facing each other on the image. delete delete The method of claim 1,
The surface of the recess is a tissue specimen embedding mold, characterized in that part of the spherical surface. The method of claim 1,
Tissue specimen embedding mold, characterized in that both ends of the long groove is a semi-circle or arc shape. The method of claim 1,
The length of the long groove is 16mm, the width is 7mm from the upper surface of the first inclined surface and the tissue specimen embedding mold, characterized in that 5mm. The method of claim 6,
The tissue specimen embedding mold, characterized in that the angle of the first inclined surface is 60 ~ 80 °. The method of claim 1,
The thickness of the intestinal groove is tissue specimen embedding mold, characterized in that 5mm. The method of claim 1,
The tissue specimen embedding mold is tissue specimen embedding mold, characterized in that the aluminum or aluminum alloy material.

Images