KR101087303B1 - Apparatus for staining specimens - Google Patents

Abstract

PURPOSE: A dyeing apparatus for a sample is provided to improve the dyeing accuracy of a sample by refining a dyeing agent and to extend the use period of the dyeing agent. CONSTITUTION: A dyeing apparatus for a sample comprises a dyeing bat(100), a dyeing agent storage bath(300), a restoring pipe(450), and a bubble injection unit. The dyeing bat is filled with a dyeing agent. The dyeing agent storage bath is connected to the dyeing bath through a drain pipe(150) and stores the dyeing agent. The restoring pipe is arranged on one surface of the dyeing agent storage bath and is connected to the inside the dyeing bath. The bubble injection unit is arranged on the dyeing bath or the dyeing agent storage bath and injects air bubbles to the dyeing bath or the dyeing agent storage bath.

Description

Apparatus for staining specimens

The present invention relates to a sample dyeing apparatus, and in particular, it can not only improve cell staining function through the bubble spray, but also can extend the cycle of use of the dyeing reagent and omit the dipping operation, shortening the dyeing time and many existing It relates to a dyeing apparatus for a sample having an improved structure than the automatic staining (Auto stain) that requires a dye bath.

In general, in addition to the conventional method of extracting cells corresponding to a physical examination site for cancer, and smearing the collected cells directly on the slide, the liquid is stored in a solution container containing the solution solution and then the cells are attached to the slide. There is a manual dyeing method or an automatic dyeing method using equipment used for a cell test or a biopsy for fixing human tissues on a slide.

Cytometry, which examines the presence or absence of pathological changes by examining the exfoliated or collected cells from a part of the living body with an optical microscope, is a morphological examination method that can be used for malignant tumors and various infectious diseases, cancer, etc. In order to determine the abnormality, a part of the human body having abnormalities is collected and attached to a slide, and a staining process is generally performed in a specific manner such as a cellular material or a cytoplasm or nucleus. After reacting the staining material with the cells, the distribution and specificity of cell constituents are compared with normal cells through an optical microscope and analyzed.

As a result of diagnosis through these processes, as soon as it is directly related to the life of the patient, such as early cancer detection, cancer diagnosis, and cancer metastasis, rapid and accurate staining and staining method capable of reliably reproducing the characteristics of each component of the diagnostic cells are important. Because of this, commercial efforts are being made with academic attention.

Representative of the cancer cell, Papanicolo staining is a study by Greek-born American scholar GN Papanicolo (Drijver, js, and Boon, ME: Manipulating the papanicolaou staining method: Role of acidity in the EA counterstain Acta Cytol., 27: 693 -698, 1983), which has been systematically developed and used by scholars.

In addition, various dyeing samples have been developed and used appropriately according to the diagnostic sample or purpose of diagnosis.

Currently, cytoplasmic staining in many medical institutions is carried out in two steps with staining reagents of orange-G6 and EA solution, and each step is a dyeing method consisting of washing with 95% ethanol alcohol.

The cytoplasmic staining method has been used in 1954 because there is no inefficient cytoplasmic staining method or other dyeing reagents and methods due to long dyeing time and expensive reagents used in each step.

In addition, the nuclear staining of cells is stained using hematoxylin, a staining reagent.

By the way, the existing staining method is stained through the dipping process of lifting the cells up and down after plating and fixing the cells. The reason for this dipping is to remove the solution from the last process on the smear surface in the process of passing different solutions and to improve the ability of the solution. It is not easy to apply the time and force of dipping multiple times and the accurate dipping time of the sample loading tray loaded with slides directly.The automatic dyeing machine can reduce the trouble of dipping more than manual dyeing, but it is alcohol based dyeing. Due to the nature of the reagents or alcohol when exposed to the air for a long time due to the oxidation reaction, the crystal phenomenon of each reagent, or various alcohols (50% ethanol, 70% ethanol, 80% ethanol, 95% ethanol, 100% ethanol), etc. Falls sharply.

As a result, the cells are not dyed properly, and the replacement cycle of the dyeing reagent is shortened, thereby increasing the consumption amount of the dyeing reagent and the pathogenic waste solution.

It is an object of the present invention to provide a dyeing apparatus for a sample having an improved structure by using a bubble device so that the dyeing reagent can suppress the formation of crystals (crystals) generated by oxidation.

Another object of the present invention is to provide a dyeing apparatus for a sample having an improved structure so that the replacement cycle of the dyeing reagent can be extended through a purification function using a filter.

Still another object of the present invention is to provide a dyeing apparatus for a sample having an improved structure so that the dipping operation for dyeing a sample can be replaced with a bubble spraying operation.

The present invention is to reduce the size of the dyeing machine, the dyeing time and waste of alcohol because each alcohol can be collected in one place by using the bubble device, that is, the device capable of supplying oxygen. It is an object of the present invention to provide a dyeing apparatus for a sample having an improved structure so as to suppress the formation of crystals formed on the surface of the sample contained in the dyeing reagent.

The present invention for achieving the above object is a dye bath filled with a dyeing reagent therein,
A dyeing reagent storage tank connected with a drainage pipe disposed on one surface of the dyeing tank and storing a dyeing reagent therein;
A return pipe disposed on one surface of the dye reagent storage tank and connected to supply the dye reagent to the inside of the dye tank at a pressure of a pump;
It is characterized in that it is provided with a bubble spray unit for discharging the air bubbles in the interior of the dye tank or the dye reagent storage tank by using the air supplied from the outside disposed in at least one of the dye tank or dye reagent storage tank.
The dyeing tank further includes a sample loading tray for loading samples.
The sample is smeared on the surface of the slide and loaded into the sample loading tray.

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It is further provided with a filter unit disposed in the drain pipe for filtering the dyeing reagent passing through the drain pipe.
The drain pipe is provided with a solenoid valve for controlling the discharge of the dyeing reagent in the dyeing tank.

The return pipe is provided with a solenoid valve for controlling the supply of the dyeing reagent in the dyeing reagent reservoir.

The present invention is to suppress the formation of crystals on the surface of the sample contained in the dyeing reagent and to be able to purify the dyeing reagent, according to the present invention can suppress the formation of crystals to improve the dyeing accuracy of the sample In addition, there is a useful effect that can extend the cycle of use of the dyeing reagent by purifying staining reagent stain with a filter.

In addition, the present invention can replace the existing dipping operation due to the bubble discharge can improve the staining rate of the sample, and has the advantage of shortening the washing step with alcohol multiple times.

1 is a perspective view showing a dyeing apparatus for a sample according to the present invention.
Fig. 2 is a side view of Fig. 1; Fig.
3 is a plan view of FIG.
Figure 4 is a state of use of the present invention.
Figure 5 is a use state showing a state in which the dyeing apparatus of the present invention is applied to an automatic dyeing machine.
Figure 6,7,8 is a photograph comparing the cells formed by the crystals and cells stored in the dyeing device of the present invention stored by each staining reagent.
9 is an enlarged view of main parts of FIG. 6;
FIG. 10 is an enlarged photograph of the crystal of FIG. 6; FIG.
11 is an enlarged photograph of main parts of FIG. 7;
12 is an enlarged view of main parts of FIG. 8;

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Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
When the dyeing apparatus of the sample according to the present invention, described with reference to Figures 1 to 4, the configuration is a plurality of dyeing tank is arranged so that the dyeing reagent is filled therein and the drain pipe 150 is connected to one side (one side) The dyeing reagent storage tank 300 and the dyeing reagent storage tank 300 connected in communication with each dyeing tank 100 through the drain pipe 150 and filled with a dyeing reagent therein, and one side of the dyeing reagent storage tank 300 (the other side). And a return pipe 450 arranged to supply the dyeing reagent filled therein through the pump 400 to the inside of the dyeing tank 100, and a lower portion of the dyeing tank 100 or the dyeing reagent storage tank 300. Consists of a bubble injection unit 50 for discharging the air bubbles in the interior of the dyeing tank 100 or the dyeing reagent storage tank 300 by using the air supplied from the outside.

In more detail, the dyeing tank 100 has a lid (not shown) that can be opened and closed at an upper portion thereof, and is configured in the form of a box in which an inner space is formed to fill a dyeing reagent therein.

The drain pipe 150 is connected to the lower end of one end of the dye bath 100, the other end is connected to the upper side of the dye reagent storage tank 300, the dyeing reagent filled in the dye bath 100, It becomes a path to drain into the reservoir 300.

In addition, the drain pipe 150 is disposed inside the solenoid valve 110 for controlling the drain operation of the dyeing reagent.

Preferably, the filter unit 200 is disposed on the drain pipe 150 to filter the dye reagent passing through the drain pipe 150.

The filter unit 200 has a membrane filter embedded therein to filter the precipitates or contaminants in the dyeing reagent to perform purification of the dyeing reagent.

Bubble spray unit 50 is formed with a plurality of bubble spray holes (not shown) at the top to discharge the air bubbles inside the dye bath 100 and the dye reagent storage tank 300 using the air supplied from the external compressor. Has the function.

The dyeing reagent reservoir 300 is disposed below the dyeing vessel 100 and is formed in a sealed box having an inner space.

In the return pipe 450, a pump 400 for pumping the dye reagent in the dye reagent reservoir 300 into the dye tank 100 is disposed, and for controlling the supply of the dye reagent in the dye reagent reservoir 300. The solenoid valve 110 is provided.

Each dye bath 100 contains hematoxylin (Hematoxylin) and orange-G6 and EA staining reagent or ethanol, respectively.

The operation of the present invention having such a configuration will now be described.

The dyeing apparatus for a sample according to the present invention is arranged so that the sample loading tray 10 loaded with the slide is placed in the dyeing tank 100 in which each dyeing reagent or alcohol is contained.

Subsequently, when the air bubbles are discharged through the bubble spray unit 50 disposed below the dye bath 100, the sample (cell) contained in the dye reagent in the dye bath 100 and smeared on the surface of the slide is shown in FIG. As shown in 6 to 12, it is possible to suppress the production of crystals (crystals) by air bubbles.

This is because, while the air bubbles come into contact with the surface of the cells in which the crystals are formed, the bubbles are washed and the crystals are dissolved in the dyeing reagent.

In addition, air bubbles can replace the function of dipping by allowing the staining reagent to be well stained on the surface of the cell.

Subsequently, after the dyeing operation is completed, the solenoid valve 110 of the drainage pipe 150 is turned on to discharge the dyeing reagent in the dyeing tank 100 into the dyeing reagent storage tank 300 through the drainage pipe 150.

In this process, the dyeing reagent is filtered while passing through the filter unit 200 to remove impurities in the dyeing reagent and is supplied into the dyeing reagent storage tank 300 in a purified state.

In addition, the bubble spray unit 50 in the dye tank 300 discharges air bubbles in the dye reagent storage tank 300 in the same way as the bubble spray unit 50 of the dye tank 100, and deposits in the stored dye reagent. Do not occur.

Bubble spray unit 50 of the present invention may be disposed in the dye bath 100, as well as the dyeing reagent, it can perform the same function.

The present invention as described above can improve the staining function of the cells attached to the slide using the bubble spray unit 50 and the filter unit 200, and has the advantage of improving the preservation of the dyeing reagent.

In addition, when the bubble spray unit 50 is disposed in the dye bath 100 containing alcohol, since the washing step may be unified a plurality of times, it is possible to shorten the washing step by alcohol to shorten the dyeing step.
On the other hand, Figure 5 is a use state diagram showing a state in which the dyeing apparatus of the present invention is applied to the automatic dyeing machine, each dyeing tank 100 and dyeing reagent storage tank 300 is provided in the automatic dyeing machine 500, the filter unit 200 ) Is arranged to perform the same function as the above-described embodiment.

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This shows that the dyeing apparatus of the present invention is applicable to manual dyeing and automatic dyeing.

Explanation of symbols on the main parts of the drawings
10: sample loading tray 50: bubble injection unit
100: dyeing tank 110: solenoid valve
150: drain pipe 200: filter portion
300: dye reagent storage tank 400: pump
450: return pipe 500: automatic dyeing machine

Claims (9)

A dye bath filled with a dye reagent therein;
A dyeing reagent storage tank connected with a drainage pipe disposed on one surface of the dyeing tank and storing a dyeing reagent therein;
A return pipe disposed on one surface of the dye reagent storage tank and connected to supply the dye reagent to the inside of the dye tank at a pressure of a pump;
A dyeing apparatus for a sample including a bubble spray unit for discharging air bubbles into the dye tank or the dye reagent storage tank by using the air supplied from the outside disposed in at least one of the dye tank or the dye reagent storage tank. The method according to claim 1,
The dyeing tank dyeing apparatus of the sample further comprises a sample loading tray for loading the samples. delete delete delete The method according to claim 2,
And the sample is smeared on the surface of the slide and loaded into the sample loading tray. The method according to claim 1,
The sample dyeing apparatus further comprises a filter unit disposed in the drain pipe for filtering the dye reagent passing through the drain pipe. The method according to claim 1,
The drain pipe is a dyeing apparatus of a sample, characterized in that the solenoid valve for controlling the discharge of the dyeing reagent in the dyeing tank is disposed. The method according to claim 1 or 8,
The return pipe comprises a solenoid valve for controlling the supply of the dyeing reagent in the dyeing reagent storage tank.

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