KR102399224B1 - Distributed Smear Method Using Filter Container for Liquid Base Cytology - Google Patents

Abstract

The present invention relates to a dispersion smearing method using a filter container for liquid cell smearing, comprising the steps of accommodating liquid cells to be tested in a container body with a sealed upper portion; Inserting and coupling the dispensing filter unit and the collecting unit, and inserting and installing the container body while releasing the seal from the dispensing filter unit by flipping the container body so that the sealing part of the container body is located at the lower part in a state where the suction device is inserted and installed in the collecting part step; When the container body part is sucked by the operation of the suction device while the container body part is inserted into the dispensing filter part, external air is introduced from the dispensing filter part and the part where the container body part is inserted and supported, in the container body part and the dispensing filter part dispensing to the collecting unit while filtering each; separating the container body and the dispensing filter unit from the collecting unit when dispensing is completed in the collecting unit; and smearing the slide by contacting the upper part of the collecting part.

Description

Distributed Smear Method Using Filter Container for Liquid Base Cytology

The present invention relates to a dispersion smearing method using a filter container for liquid cell smearing, and more particularly, by improving the structure of the container and filter for smearing liquid cells on a slide, and according to the improved structure, when injecting a sample for smearing Dispersion using a liquid cell smear filter container that improves inspection efficiency by collecting and smearing cells in a state in which cells are sorted by reverse dispersion with the inflow of external air while controlling the suction time, stop time, and number of suctions of the suction pump It relates to the smear method.

In general, to test for cancer and disease in liquid cytology, cells corresponding to the physical examination site are collected, and the collected cells are stored in a preservation reagent container containing a preservation reagent, and then transferred to the examination center.

Thereafter, the presence or absence of cancer or disease can be determined by removing foreign substances from the specimen using a sample processor and a filter container, attaching the cells and materials necessary for the examination to a slide glass, and then passing through the staining step and reading the abnormal state of the cells with a microscope. will determine

According to this method, before injecting the sample contained in the preservation reagent into the filter container, shake the preservation reagent container by hand or use a separate stirring device to disperse the cells and foreign substances in the sample.

After that, open the lid, pour the sample into the filter container, and suck the sample by attaching the suction device to the bottom of the filter. The primary mesh attached to the filter container filters out mucus and foreign substances, and the cells collected on the 5-10um pore membrane are attached to the slide glass. is not sufficiently absorbed and remains in the filter container.

When the filter container is separated to access the membrane through which the cells are filtered, the mixed solution that cannot be sucked is poured down by gravity and lost.

In addition, the process of attaching cells from the storage reagent container to the slide glass is time-consuming because it has to be done manually by the user. Since the lid has to be opened and the sample is poured, contaminants or impurities may be transferred from the user's hand to the slide glass, thereby reducing the accuracy of the cell test.

Such a filter container for liquid cell smear of the prior art includes a container in which a sample consisting of a preservation reagent and cells is contained in order to smear a slide glass, a filter to remove mucus and foreign substances from the sample in the container, and to collect cells and necessary substances; And the smearing device that smears the cells collected in the filter on the slide glass is separated from each other independently, and errors due to manual operation such as opening and closing of the preservation reagent lid, sample injection, filter installation, filter separation, etc. , there was a problem that took up a lot of the device.

In the filter described above, in order to filter by injection of the sample, the user must pour the sample according to the concentration of the sample. There was a problem in that the mesh was clogged with mucus and foreign substances and thus could not be sucked and lost.

In addition, when the sample is sucked and collected, the amount of cells distributed on the slide is concentrated rather than uniformly dispersed, so there is a problem in that the efficiency of the test is lowered due to overlapping of cells or a small amount of cells.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a dispersion smearing method using a filter container for liquid cell smear, in which the filter and the collecting part are provided so that they can be separated from each other so that the container in which the liquid cells are contained. An object of the present invention is to provide a dispersion smearing method using a filter container for liquid cell smear, in which a sample is sucked by a suction device in a state of being turned upside down, and the suction cycle is adjusted while external air is introduced during inhalation to improve smearing efficiency.

Objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood from the description below.

In order to achieve the above object, a dispersion smearing method using a filter container for liquid cell smear according to an embodiment of the present invention includes the steps of accommodating liquid cells to be tested in a container body with an upper portion sealed; Inserting and coupling the dispensing filter unit and the collecting unit, and inserting and installing the container body while releasing the seal from the dispensing filter unit by flipping the container body so that the sealing part of the container body is located at the lower part in a state where the suction device is inserted and installed in the collecting part step; When the container body part is sucked by the operation of the suction device while the container body part is inserted into the dispensing filter part, external air is introduced from the dispensing filter part and the part where the container body part is inserted and supported, in the container body part and the dispensing filter part dispensing to the collecting unit while filtering each; separating the container body and the dispensing filter unit from the collecting unit when dispensing is completed in the collecting unit; and smearing the slide by contacting the upper part of the collecting part.

In addition, in the step of accommodating the container body, the liquid cells to be tested are accommodated in the container body of the container body, and then the storage is completed by closing the upper part of the container body with a container opener having a sealing body in the center. can

And, in the step of inserting and installing the container body part, when the container body is turned over and the sealing body is inserted while being destroyed by the sealing releasing protrusion of the dispensing filter part, the filter is primarily filtered with a container filter body installed in the container body, and the dispensing filter part After secondary filtering in the filter body located inside the dispensing filter body, the container body may be inserted and installed in the dispensing filter body in order to dispense to the collecting unit.

In addition, in the step of dispensing with the collecting unit, when suction is performed with the suction device, the liquid cells stored in the container body are filtered by the filter body installed in the dispensing filter body of the dispensing filter unit, and the filtered liquid cells are inserted It is provided to dispense with the collecting unit, but has an air distribution groove through which external air is introduced in the form of a groove at a position to be inserted into the dispensing support body protruding from the upper portion of the dispensing filter unit inserted and supported by the container body portion of the suction device. The dispensing pressure can be adjusted while avoiding vacuuming due to suction.

In addition, in the step of dispensing to the collecting unit, the air introduced to the outside by stopping the suction at a predetermined period during the suction of the suction device is introduced into the inside of the container body, and is primarily filtered in the container body by suction External air is supplied in the opposite direction to the suction direction of the filter body for secondary filtering in the container filter body and the dispensing filter part to remove impurities, and the cells concentrated inside the container body part are reversely dispersed so that they are uniformly distributed. can do.

In addition, in the step of dispensing into the collecting unit, when suction pressure is provided to the suction device inserted and installed inside the collecting body of the collecting unit, the suction pressure is transmitted through a plurality of through-hole type suction holes formed in the suction support in which the space is divided. , when the liquid cells flowing in through the dispensing filter unit are sucked, the cells are seated on the collecting foam surrounded by the collecting membrane supported on the suction support and can be collected.

and separating the dispensing filter unit from the collecting unit; Thereafter, the method may further include; leaving the cells in a state in which the liquid cells are located on the upper surface of the collecting unit, and secondly sucking to discharge the solution.

Specific details for achieving the above object will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be configured in various different forms, and these embodiments allow the disclosure of the present invention to be complete and provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention.

According to one of the above-mentioned means for solving the problems of the present invention, in the dispersion smearing method using a filter container for liquid cell smear according to an embodiment of the present invention, the filter and the collecting part are provided to be mutually separated, so that the liquid cell is contained in the container. The sample is sucked by the suction device in the state of being installed upside down, and external air flows in through the open hole formed in the filter at the time of suction to suck the sample, thereby preventing the increase in the internal vacuum pressure of the container, which prevents suction, and suction. After stopping, external air enters the sample container and repeats pressurized suction and reverse dispersion periodically while reversely dispersing sample cells to separate mucus and foreign substances adhering to the mesh and uniform cell collection to improve test efficiency. provides an effect.

1 is a process diagram illustrating a dispersion smearing method using a filter container for liquid cell smear according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a state in which liquid cells are accommodated in the container body in the liquid gas storage step in the dispersion smearing method using the filter container for liquid cell smearing of FIG. 1 .
FIG. 3 is a configuration diagram showing a state in which the container body is installed in the branch filter in the step of installing the container body in the dispersion smearing method using the filter container for liquid cell smear of FIG. 1 .
FIG. 4 is a plan view showing the main configuration of a branched filter unit in the dispersion smearing method using the filter container for liquid cell smearing of FIG. 3 .
FIG. 5 is an operational diagram showing a state in which liquid cells are dispensed by suction in the dispensing step of the collecting part in the dispersion smearing method using the filter container for liquid cell smearing of FIG. 1 .
6 is an operation diagram showing a state in which reverse dispersion occurs by stopping suction in the dispensing step of the collection part during the dispersion smearing method using the filter container for liquid cell smear of FIG. 1 .
7 is an operational diagram showing a smearing step in the dispersion smearing method using the filter container for liquid cell smearing of FIG. 1 .

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are merely identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as “connected” or “connected” with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

The suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves. In addition, in order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

Hereinafter, detailed contents for practicing the present invention will be described with reference to the accompanying drawings.

1 is a process diagram illustrating a dispersion smearing method using a filter container for liquid cell smear according to an embodiment of the present invention.

Referring to FIG. 1, in the dispersion smearing method using a filter container for liquid cell smear according to an embodiment of the present invention, the liquid cell solution and cells are separated to perform smearing, and the container, the filtering part, and the collecting part are separated. Each is provided in a detachable form, and suction is dispensed by suction pressure, while preventing the inflow of external air and vacuuming, and adjusting the suction and stopping to be repeated periodically so that outside air flows into the container when stopped This is a method that prevents cells from being concentrated by reverse dispersion and spreads uniform cells to improve plating efficiency.

This dispersion smearing method using a filter container for liquid cell smearing includes a liquid gas receiving step (S10), a container body installation step (S20), a collecting part dispensing step (S30), a collecting part separation step (S40), a secondary suction step (S50) and a smearing step (S60).

FIG. 2 is a block diagram showing a state in which liquid cells are accommodated in the container body in the liquid gas storage step in the dispersion smearing method using the filter container for liquid cell smearing of FIG. 1 .

Here, referring to FIG. 2 , the liquid gas receiving step ( S10 ) is a step of accommodating the liquid cells to be tested in the container body part 110 with the upper portion sealed.

In the liquid gas receiving step (S10), the liquid cells to be tested are accommodated in the container body 111 of the container body 110, and then the container with the container opening and closing body 112 having the sealing body 113 in the center. It is a step of closing the upper portion of the body 111 to complete the storage.

That is, the container body 111 with an open upper part closes the upper part with the container opener 112 having a sealing body 113 that is destroyed by external force after accommodating the liquid cells and is formed in the center to complete the storage of the liquid cells. .

FIG. 3 is a block diagram showing a state in which the container body is installed in the branch filter in the step of installing the container body in the dispersion smearing method using the filter container for liquid cell smear of FIG. 1 .

Referring to FIG. 3 , the container body installation step (S20) includes inserting and coupling the dispensing filter unit 120 and the collecting unit 130, and inserting and installing the suction device into the collecting unit 130, the container body unit ( This is a step of inserting and installing the container body part 110 while releasing the seal from the dispensing filter part 120 by turning over so that the sealing part of the 110) is located at the lower part.

In this container body part installation step (S20), when the container body 111 is turned over and the sealing body 113 is inserted while being destroyed by the sealing releasing protrusion 122 of the dispensing filter part 120, it is installed in the container body 111. The container body for dispensing to the collecting unit 130 after filtering first with the container filter body 114 and secondarily filtering in the filter body 123 located inside the dispensing filter body 121 of the dispensing filter unit 120 . (111) is a step of inserting and installing the dispensing filter body (121).

That is, in a state in which the liquid cells are accommodated in the container body 111 , the container opening and closing body 112 having the sealing body 113 is inserted and supported by the dispensing filter body 121 in a state located at the lower part. When the container opening and closing body 112 is inserted and supported, the sealing releasing protrusion 122 protruding from the upper center of the dispensing filter body 121 is inserted while breaking the sealing body 113 and is installed to supply the liquid cells housed in the lower part. .

When the container body 111 is inserted and fastened into the dispensing filter body 121 in this way, the liquid cells are first filtered with the container filter body 114 and then flowed into the dispensing filter body 121 through the sealing release protrusion 122, The introduced liquid cells are secondarily filtered through the filter body 123 and supplied to the collecting unit 130 .

4 is a plan view showing the main configuration of a branched filter part in the dispersion smearing method using the liquid cell smearing filter container of FIG. 3, and FIG. 5 is a dispensing step of the collecting part in the dispersion smearing method using the liquid cell smearing filter container of FIG. 1. It is an operation diagram showing the state in which liquid cells are dispensed by suction, and FIG. 6 is a state in which reverse dispersion occurs by stopping the suction in the dispensing step of the collection part during the dispersion smearing method using the filter container for liquid cell smear of FIG. It is a diagram showing the operation.

4 to 6, when the collecting part dispensing step (S30) is suctioned by the operation of the suction device in a state in which the container body part 110 is inserted into the dispensing filter part 120, the dispensing filter part 120 and the container It is a step of dispensing to the collecting unit 130 while being filtered in the container body unit 110 and the dispensing filter unit 120, respectively, while external air is introduced from the inserted and supported portion of the body unit 110 .

In the collecting part dispensing step (S30), when suction is performed with a suction device, the liquid cells accommodated in the container body 110 are first filtered in the container filter body 114 installed in the container body 110, Secondary filtering in the filter body 123 installed in the dispensing filter body ( ) of the dispensing filter unit 120, provided to dispense the filtered liquid cells with the inserted collection unit 130, but to the container body unit 110 An air distribution groove 125 through which external air is introduced in the form of a groove is provided at a position to be inserted into the dispensing support body 124 that protrudes to the upper portion of the dispensing filter unit 120 that is inserted and supported, so that vacuum is achieved due to suction of the suction device. It is provided to adjust the dispensing pressure while avoiding.

In addition, in the collecting part dispensing step (S30), the suction is stopped at a predetermined cycle during the suction of the suction device, and the air flowing to the outside is introduced into the inside of the container body 110 and inside the container body 110 by suction. External air is supplied in the opposite direction to the suction direction of the container filter body 114 for primary filtering and the filter body 123 for secondary filtering in the dispensing filter unit 120 to remove impurities while removing impurities in the container body part 110 ) can be reversely dispersed so that the cells concentrated inside are evenly distributed.

And, in the collecting part dispensing step (S30), when suction pressure is provided to a suction device inserted and installed inside the collecting body 131 of the collecting unit 130, a plurality of through-hole type suction formed in the suction support body 132 in which the space is divided. When the suction pressure is transmitted through the ball 133 and the liquid cells flowing in through the dispensing filter unit 120 are sucked, the cells are placed in the collection foam 135 surrounded by the collection membrane 134 supported by the suction support 132 . is settled and can be harvested.

That is, when the liquid cell is dispensed into the collecting unit 130 and suction is performed by the suction device, the suction pressure is transmitted through the suction hole 133 of the suction support 132 and the liquid filtered by the filter body 123 . Cells are dispensed with the collecting foam 135 wrapped with the collecting membrane 134 .

At this time, when the pressure is continuously increased by the suction of the suction device to reach the vacuum pressure, the dispensing is stopped by the pressure, and the dispensing support protrudes from the upper part of the dispensing filter body 121 and is inserted and supported by the container opening and closing body 112 The pressure can be adjusted so that air is introduced through the air flow groove 125 formed as the insertion part of the body 124 and reaches a vacuum pressure to prevent the flow from being lowered.

In addition, by repeatedly adjusting the suction operation and stopping cycle of the suction device, the air introduced through the air distribution groove 125 at the time of stopping flows into the inside of the container body 111, and the cells are concentrated by suction and In order to prevent the efficiency from being lowered, the reverse dispersion phenomenon may occur so that the distribution of cells is uniformed by the air introduced from the bottom to the top to have a uniform cell layer when collecting.

As described above, when pressurized suction and reverse dispersion are repeatedly performed, mucus and foreign substances adhering to the container filter body 114, which is primarily filtered in the container opening and closing body 112, are removed, and uniform cells are recovered. Since it is supplied to the collecting unit 130, inspection efficiency can be improved.

The collecting unit separation step ( S40 ) is a step of separating the container body 110 and the dispensing filter unit 120 from the collecting unit 130 after dispensing is completed in the collecting unit 130 .

The secondary suction step (S50) is a second suction step so that the liquid cells remain on the upper surface of the collecting unit 130, and the solution is discharged.

That is, when the liquid cells are dispensed into the collecting part while controlling the suction pressure, the dispensing filter body 121 and the collecting body 131 are separated from each other and the liquid cells are dispensed into the collecting membrane 134 with a slide, and the second suction is performed. , it is possible to have a uniform cell distribution in a state in which the remaining solution is sucked and discharged.

7 is an operational diagram showing a smearing step in the dispersion smearing method using the liquid cell smearing filter container of FIG. 1 .

Referring to FIG. 7 , the smearing step ( S60 ) is a step of smearing by contacting the slide on the upper portion of the collecting unit 130 .

That is, smearing is performed while the slide is in contact with the upper part of the sampling membrane 134 .

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

<Explanation of symbols for main parts of the drawing>
100: filter container 110: container body
111: container body 112: container opening and closing body
113: sealing body 114: container filter body
120: dispensing filter unit 121: dispensing filter body
122: sealing release projection 123: filter body
124: dispensing support body 125: air distribution groove
130: collecting unit 131: collecting body
132: suction support 133: suction hole
134: collecting membrane 135: collecting foam

Claims (7)

accommodating the liquid cells to be tested in the container body part with the upper part sealed;
Inserting and coupling the dispensing filter unit and the collecting unit, with the suction device inserted into the collecting unit, turning over so that the sealing part of the container body is located at the lower part and releasing the seal from the dispensing filter unit, inserting and installing the container body step;
When the container body part is sucked by the operation of the suction device while the container body part is inserted into the dispensing filter part, external air is introduced from the dispensing filter part and the part where the container body part is inserted and supported in the container body part and the dispensing filter part. dispensing to the collecting unit while filtering each;
separating the container body and the dispensing filter unit from the collecting unit when dispensing is completed in the collecting unit; and
Including; contacting the slide on the upper part of the collecting part and smearing it;
In the step of receiving the container body portion,
After accommodating the liquid cells to be tested in the container body of the container body, close the upper part of the container body with a container opener having a sealing body in the center to complete the storage,
In the step of inserting and installing the container body,
When the container body is turned over and the sealing body is inserted while being destroyed by the sealing releasing protrusion of the dispensing filter part, filtering is performed with the container filter body installed in the container body, and secondarily filtering from the filter body located inside the dispensing filter body of the dispensing filter part and then inserting and installing the container body into the dispensing filter body in order to dispense to the collecting part.
Dispersion smearing method using a filter container for liquid cell smear.
delete delete The method of claim 1,
In the step of dispensing into the collecting unit,
When the suction is performed with the suction device, the liquid cells accommodated in the container body are first filtered by the container filter body installed in the container body, and secondarily filtered by the filter body installed in the dispensing filter body of the dispensing filter part. , Provided so as to dispense the filtered liquid cells into the inserted collecting unit, an air distribution groove through which external air is introduced in the form of a groove at a position to be inserted into the dispensing support body protruding from the upper portion of the dispensing filter unit inserted and supported by the container body To control the dispensing pressure while avoiding vacuum due to the suction of the suction device by having a
Dispersion smearing method using a filter container for liquid cell smear.
The method of claim 1,
In the step of dispensing into the collecting unit,
The container filter body and the dispensing filter unit for stopping the suction for each predetermined cycle during the suction of the suction device, so that the air introduced to the outside is introduced into the container body and primarily filtered in the container body by suction External air is supplied in the opposite direction to the suction direction of the secondary filtering filter body to remove impurities while reversely dispersing the cells concentrated inside the container body to uniformly distribute
Dispersion smearing method using a filter container for liquid cell smear.
The method of claim 1,
In the step of dispensing into the collecting unit,
When suction pressure is provided to the suction device inserted and installed inside the collection body of the collection unit, the suction pressure is transmitted through a plurality of through-hole type suction holes formed in the suction support in which the space is divided, and liquid cells introduced through the dispensing filter unit When is inhaled, the cells are seated on the collection foam wrapped by the collection membrane supported on the suction support to collect
Dispersion smearing method using a filter container for liquid cell smear.
The method of claim 1,
separating the dispensing filter unit from the collecting unit; after,
Further comprising; leaving the cells in a state in which the liquid cells are located on the upper surface of the collecting unit, and secondarily sucking to discharge the solution;
Dispersion smearing method using a filter container for liquid cell smear.

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