SK7384Y1 - Cassette for biological samples - Google Patents

Abstract

It is described a cassette comprising a vessel with a lid in which is vertically mounted a holder (3) which a base (31) has a vertically oriented mandrel (32) on which are stored frames (4) containing a boxes (5) for storing biological samples.

Description

(54) Title: Cassette for biological samples (57) Annotation:

Disclosed is a cassette comprising a lid-closable container in which a stand (3) is slidably mounted in the vertical direction, the base (31) of which is provided with a vertically oriented mandrel (32) on which support frames (4) are slidably mounted, in which cases (5) for storing the biological sample.

SK 7384 Yí

SK 7384 Υ1

Technical field

The technical solution relates to a cassette for biological samples, suitable for storing and handling biological samples of tissue intended for laboratory examination.

Prior art

As part of the patient's medical care or research, tissue sampling is carried out for laboratory examination. After sampling, these samples are stored in plastic cases with perforated bottoms and, after treatment with fixing solution, are packaged and sent for laboratory examination. Prior to the laboratory examination itself, the samples from the housing are transferred to a metal mold and the respective housing is placed on the metal mold with the perforated bottom down. Subsequently, liquid paraffin is poured into the mold so that its level extends above the perforated bottom of the housing. After the paraffin has solidified, the tissue sample is connected by paraffin to the bottom of the sheath, behind which the tissue sample is fixed to the jaws of the microtome and held thereon by slicing tissue samples suitable for microscopic examination.

A known solution of a plastic case for tissue samples is described in patent specification no. GB 2113249. This plastic case is in the shape of a square bowl with a perforated bottom. The front wall of the housing is inclined to make it easier to read the identification data of the sample placed in the housing. The front and rear walls of the housing have a greater thickness than the thickness of its side walls, so that protrusions and depressions can be formed alternately on their upper and lower walls at diagonally opposite corners. These are formed in such a way that, in contrast to the protrusion on the upper wall, a recess is formed in the lower wall and vice versa. Such an arrangement allows the shells to be stacked on top of each other, and placing the sheath upside down on the uppermost sheath containing the tissue sample in the column prevents the tissue sample from falling out of the uppermost sheath. The cases stacked in this way are tied with a binding tape, which holds them together during transport to the laboratory.

The disadvantage of this known solution is the complicated identification of the place of sampling of a particular tissue sample, especially in the case where several tissue samples from one body organ are placed in one case.

The essence of the technical solution

These disadvantages of the prior art are largely eliminated by the biological sample cassette according to this technical solution, the essence of which consists in that the cassette comprises a lid-closable container in which a stand is slidably mounted in the vertical direction, the base of which is provided with a vertically oriented mandrel. on which the supporting frames are slidably mounted, formed by a circumferential strip which is connected to the hub by means of radially arranged arms. A shaped hole is formed in the hub, the profile of which coincides with the transverse profile of the mandrel, and in the cavities delimited by the adjacent arms and part of the circumferential strip of the supporting frame, housings for storing the biological sample are arranged.

The essence of the technical solution also lies in the fact that the shaped hole formed in the hub of the supporting frame contains a recess which has the same shape as the protrusion formed on the mandrel of the stand.

Finally, the essence of the technical solution lies in the fact that the shaped hole formed in the hub of the supporting frame and the profile of the mandrel of the supporting stand are T-shaped, the recess of the shaped hole and the protrusion of the mandrel forming the base of the T-web.

The presented technical solution makes it possible to simplify the identification of the place of sampling of a specific tissue sample, in the whole process of sample processing starting from their storage in the case after collection, through handling of samples in the laboratory to evaluation of laboratory results by the sponsor.

Overview of figures in the drawings

The technical solution will be further elucidated by means of the drawing, where Figure 1 shows a perspective view of a housing intended for storing a biological sample, Figure 2 a perspective view of a support frame, Figure 3 a perspective view of a support frame with stored cases, Figure 4 a perspective view to the stand, in Figure 5 a perspective view of the stand with the support frames inserted and in Figure 6 a perspective view of the container with the lid for storing the stand with the support frames.

Examples of embodiments

As shown in Figure 6, the container 1 of the biological sample cassette, which can be closed with a lid 2 by means of

SK 7384 ¥ 1 thread, has a cylindrical shape. This also corresponds to the shape of the base 31 of the stand 3, from which a mandrel 32 protrudes in the vertical direction. Support frames 4 are mounted vertically on the mandrel 32 by means of their shaped hole 431 formed in the hub 43. These are formed by a circumferential strip 41 which is radially arranged arms 42 connected to the hub 43, as shown in Figure 2. The transverse profile of the mandrel 32 of the stand 3 and the shaped hole 431 formed in the hub 43 of the support frame 4 preferably have a T-shape in order to simplify the identification of the specific biological sampling point, the recess 432 of the shaped hole 431 and the protrusion 321 of the mandrel 32 form the base of the T-web. In the cavities 44 delimited by the adjacent arms 42 and part of the circumferential strip 41 of the frame 4, housings 5 for storing a biological sample (not shown) are arranged.

The examined body organ is virtually divided into sections before sampling. The number of housings 5 on the support frame 4 corresponds to the number of virtual sections of the body organ. At the same time, it is determined which section will be first in order and whether the other sections will follow in a counterclockwise or clockwise direction. After removal from the examined body organ, the biological samples are successively inserted into the housings 5 by inserting the biological sample from the first section into the housing 5 located in the cavity 44 satisfying the condition that one of the arms 42 delimiting this cavity 44 is connected to the hub 43 in place. , where the recess 432 of the shaped hole 431 is located, the position of this cavity 44 in relation to the given arm 42 being identical to the selected numbering direction of the virtual sections of the examined body organ.

In the case of biological samples taken, for example, from an elongated body organ, the proposed cassette solution makes it possible to place biological samples taken on this body organ at different locations, but at the same distance from a fixed point, in cases 5 located in one frame 4, and thus improve addressability and clarity in the handling of biological samples.

It is understood that an example of a specific embodiment of a technical solution is presented by way of illustration only and not as a limitation of the scope of protection of the technical solution according to this utility model.

Industrial applicability

The biological sample cassette can be used to store and transport biological samples of any size taken from any body organ.

Claims (3)

A biological sample cassette, characterized in that it comprises a container (1) closable by a lid (2), in which a stand (3) is slidably mounted in the vertical direction, the base (31) of which is provided with a vertically oriented mandrel (32), on which support frames (4) are slidably mounted, formed by a circumferential strip (41) which is connected by means of radially arranged arms (42) to a hub (43) in which a shaped hole (431) is formed, the profile of which coincides with the transverse through the profile of the mandrel (32) and in the cavities (44) delimited by the adjacent arms (42) and a part of the circumferential strip (41) of the frame (4), housings (5) for storing the biological sample are arranged. Biological sample cassette according to claim 1, characterized in that the shaped hole (431) formed in the hub (43) of the support frame (4) comprises a recess (432) having the same shape as the protrusion (321) formed on the mandrel ( 32) stand (3). Biological sample cassette according to claim 2, characterized in that the shaped hole (431) formed in the hub (43) of the support frame (4) and the mandrel profile (32) of the stand (3) are T-shaped, the recess (432) ) of the shaped hole (431) and the darkness projection (321) (32) form the base of the web of the letter T.