KR20230078312A - Cell Filtration Container - Google Patents

Abstract

The present invention relates to a cell filtering container adopting a nozzle membrane filtering method. When using a cell filtering container, a process of smearing a cell on a slide glass for cell observation, cells are sprayed from the center through a spray nozzle on a sample passing through a porous filter to be filtered with a substance other than the cells, such that a uniform cell layer can be formed on a membrane without cell heterogeneity due to pressure deviation. Also, a uniform cell layer is formed regardless of concentration of the sample, thereby very evenly collecting cells on the slide glass regardless of skill level of an operator. Accordingly, cell analysis efficiency can be significantly improved, and thus, a cell test can be easily performed.

Description

Cell filtration filter container {Cell Filtration Container}

The present invention relates to a cell filtration filter container employing a nozzle membrane filtration method.

In general, in order to examine the presence or absence of various diseases, cells are collected by isolating parts of body tissues suspected of having abnormalities, preserving the collected cells in a liquid reagent container containing cell preservation reagents, and attaching the cells to slide glass through filtering. A method of microscopic examination is used.

In the process of preserving cells in a reagent container containing a cell preservation reagent and smearing these cells on a slide glass, according to the conventionally used filtering method, cells are not attached in an evenly spread state, and uneven thickness having an uneven thickness By forming a layer, there has been a problem that observation of cells is not efficient.

Specifically, for example, in general, as a method of collecting cells on a slide glass, shake the container containing the cell culture medium to filter it while the cells are sufficiently spread in the liquid phase, and rub the cells collected on the filter on the slide glass The sampling method has been used, which has a problem in that the cells are not evenly spread on the slide glass, and as the sample is filtered, the porous filter is clogged with mucus or non-cellular materials, and the cell density is uniform due to the resulting pressure deviation. It is not static, and there is a problem that cells fall off when staining with excessively overlapped cell smears, and there have been disadvantages in that different results are obtained due to the hassle of adjusting the injection amount for each concentration of the sample according to the performer's capabilities.

KR 10-1035427 B

The present invention is to improve the above problems, and an object of the present invention is to provide a cell filtration filter container capable of smearing cells on a slide in a uniform circular state.

In order to achieve the above object, a cell filtration filter container according to an embodiment of the present invention includes a cell accommodating unit for accommodating a cell culture medium; a primary porous sieve provided inside the cell accommodating unit; a spray nozzle positioned at the center of the lower surface of the cell accommodating part; a membrane provided at a lower end of the spray nozzle to collect cells passing through the spray nozzle; It includes; a membrane support located at the lower end of the membrane and supporting the membrane.

The cell accommodating unit may additionally include a sieve mounting unit capable of holding the primary porous sieve.

In addition, one embodiment of the cell filtration filter container of the present invention may further include a buffer layer between the membrane support and the membrane.

The cell accommodating part and the membrane support part may be detachable.

The primary porous filter may have a pore size of 100 μm to 150 μm.

The spray nozzle may have a diameter adjusted so that the cell culture solution passing through the spray nozzle is sprayed to a range less than the surface area of the upper surface of the membrane.

The membrane may be a porous membrane having a pore size smaller than the diameter of the cell to be collected.

In addition, in one embodiment of the cell filtration filter container of the present invention, a means for injecting air from the outside to increase the pressure inside the cell accommodation unit or a means for suctioning a specimen to the lower end of the cell filtration filter container are fastened. Additional connectors may be included.

According to the present invention, in the process of smearing cells on a slide glass for cell observation, the sample passes through a multi-process sieve and the sample in which substances other than cells are filtered is sprayed from the center through a spray nozzle, resulting in pressure deviation A uniform cell layer can be formed on the membrane without cell heterogeneity due to the method, and a uniform cell layer is formed regardless of the concentration of the sample, so that cells can be collected very evenly on the sample slide glass regardless of the skill level of the operator. . Through this, cell analysis efficiency can be significantly improved, and cell examination can be easily performed.

1 shows a separated state diagram of each component of a cell filtration filter container according to an embodiment of the present invention.
Figure 2 shows a combined state diagram of each component of the cell filtration filter container according to an embodiment of the present invention.
Figure 3 shows a front view and a plan view of a state in which each component of the cell filtration filter container according to an embodiment of the present invention is combined.
Figure 4 shows a state of use of the cell filtration filter container according to an embodiment of the present invention. Figure 4(a) shows a state in which the liquid cell specimen is filled in the cell accommodating unit 101, and Figure 4(b) shows a state in which the liquid cell specimen is filtered through the primary porous filter 201 and then sprayed. A state diagram of the use of collecting cells through a membrane by spraying the cell culture medium through the nozzle 102 is shown, and FIG. Indicates the collected state.
5 is a state diagram illustrating a process of separating the membrane support 302 from the cell accommodating unit 101 and smearing the cells using a slide glass.
6 shows a state diagram of a cell smear on a slide glass using a conventional technique. Photos No. 1 and No. 2 from the left show a state in which cells are excessively overlapped on the slide glass depending on the sample concentration and the cells are separated during the staining step. Photos 3 and 4 from the left confirm that during filtering, mucilage or other substances other than cells are filtered through the mesh (porous sieve) so that they are not uniformly smeared on the membrane due to pressure deviation, and the cell density in the middle is reduced. can

The present invention is capable of various modifications and may have various types of embodiments. In this specification, in order to easily explain the present invention, specific embodiments have been illustrated and described, but the present invention is not intended to be limited thereto, and all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention It should be understood as being included in the present invention. Detailed descriptions of known technologies that are judged to be capable of unnecessarily obscuring the subject matter of the present invention have been omitted.

In addition, in this specification, when one component is referred to as “coupled”, “connected” or “is provided” with another component, the one component is directly coupled or directly connected to the other component However, it should be understood that they may be connected or connected via another component in the middle, unless there is a specific description to the contrary.

In addition, in order to clearly describe the present invention, parts irrelevant to the description may be omitted from the drawings, and in the drawings, the size and thickness of components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a separated state diagram of each component of a cell filtration filter container according to an embodiment of the present invention, FIG. 2 is a combined state diagram of each component of a cell filtration filter container according to an embodiment of the present invention, and FIG. A front view and a plan view of a state in which each component of a cell filtration filter container according to an embodiment of the present invention is combined, and FIG. 4 is a state diagram showing a cell filtration filter container according to an embodiment of the present invention in use, FIG. 4 (a) shows a state in which the liquid cell sample is filled in the cell accommodation unit 101, and FIG. A state diagram showing the use of collecting cells through a membrane by spraying a liquid cell sample, and FIG. 5 is a state diagram showing a process of separating the membrane support 302 from the cell accommodating section 101 and smearing cells using a slide glass, and FIG. 6 is a state diagram showing the cell smearing on a slide glass using a conventional technique. .

1 to 6, the cell filtration filter container according to an embodiment of the present invention sprays a liquid cell sample through a spray nozzle 102 to evenly collect cells on a membrane 301. am.

A cell filtration filter container according to an embodiment of the present invention includes a cell accommodating portion 101 accommodating a liquid cell sample, a primary porous filter 103 provided inside the cell accommodating portion, and a center of the lower surface of the cell accommodating portion. A spray nozzle 102 positioned at the bottom of the spray nozzle 102 and a membrane 301 provided at the bottom of the spray nozzle 102 to collect cells that have passed through the spray nozzle 102, located at the bottom of the membrane 301 and the membrane 301 ) and a membrane support 302 for supporting it.

The shape of the cell accommodation unit 101 is not limited as long as it has an internal volume capable of accommodating an appropriate amount of liquid cell sample. A spray nozzle 102 is provided at the center of the bottom of the cell accommodation unit so that the liquid cell sample can be evenly sprayed downward. The nozzle size of the spray nozzle 102 can be adjusted to a size that can easily spray a sample solution containing cells, and as long as the cell filtration filter container of the present invention is used for filtering and spraying cells, generally known cells Considering the size, a size of 100 μm or more may be preferably selected.

The cell accommodating unit 101 may additionally include a sieve mounting unit 103 capable of holding the primary porous sieve 201 thereon. The sieve holder 103 can support the primary porous sieve 201, and the shape is not limited as long as it can pass the liquid cell sample and move it to the spray nozzle 102.

In addition, a buffer layer 303 may be further included between the membrane support 302 and the membrane 301 . The buffer layer 303 may use a material suitable for alleviating the shock during cell collection and absorbing the filtrate, and specifically, for example, sponge foam, polyurethane, polyethylene, visco elastic, and non-woven fabric. Any one or more selected from the group consisting of may be used, preferably sponge foam may be used, but is not limited thereto.

In one embodiment of the present invention, when a sponge foam is used as the cushioning material layer 303 of the present invention, a sponge foam of preferably 30-80 ppi may be used.

The cell accommodating part 101 and the membrane support part 302 are detachable. In the state where the cell accommodating part 101 and the membrane support part 302 are combined, the liquid cell sample is filtered, and after the filtration is completed, the cell accommodating part 101 and the membrane support part 302 are separated and collected on the membrane 301. cells can be obtained.

In one embodiment of the present invention, the primary porous filter 201 has a pore size of 100 μm to 150 μm. The primary porous sieve corresponds to a configuration for primarily filtering foreign substances having a size larger than cells, and preferably has the above-described pore size in consideration of the size of cells. In another embodiment, the primary porous filter 201 of the present invention may be appropriately adjusted in consideration of the size of cells included in the liquid cell sample to be collected. As the primary porous filter 201, a commercially available filter suitable for cell filtering may be used.

The spray nozzle 102 may use a spray nozzle whose diameter is adjusted so that the liquid cell sample passing through the spray nozzle is sprayed to a range less than the surface area of the upper surface of the membrane. Cells are sprayed from the center through the spray nozzle 102 and collected on the membrane 301 , so that the cells can be collected so as to be evenly distributed on the membrane 301 .

As the membrane 301 , a porous membrane having a pore size smaller than the diameter of the cell to be collected may be used. Accordingly, the desired cells may be collected on the membrane 301 by collecting the desired cells and discharging the filtrate and small-sized foreign substances downward.

One embodiment of the cell filtration filter container of the present invention is a means for injecting air from the outside to increase the pressure inside the cell accommodating part 101 or a means for suctioning a sample to the bottom of the cell filtration filter container. A connector that can be fastened may additionally be included.

The means for injecting air from the outside or the means for suctioning the sample to the bottom of the cell filtration filter container may be a pressurized pump or a vacuum pump, which may be used in connection with the connector, or may be used as a cell container of the present invention. (101) may be integrally coupled and provided. The above-described "can be provided integrally coupled" includes a detachable form.

In one embodiment of the present invention, the cell filtration filter container of the present invention is used together with a separate smearing device having a suction nozzle, and more specifically, the suction nozzle and the cell filtration filter container are tightly coupled to sample cells using a suction pump. Cell filtration can be achieved by suctioning.

The above description is only an illustrative example of the technical idea of the present invention, and various modifications and variations can be made by those skilled in the art to which the present invention belongs without departing from the essential characteristics of the present invention.

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

The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

101: cell receiving unit
102: injection nozzle
103: filter holder
201: primary porous filter
301: membrane
302: membrane support
303: buffer layer

Claims (8)

a cell accommodating unit accommodating a liquid cell specimen;
a primary porous sieve provided inside the cell accommodating unit;
a spray nozzle positioned at the center of the lower surface of the cell accommodating unit;
a membrane provided at a lower end of the spray nozzle to collect cells passing through the spray nozzle;
Cell filtration filter container comprising a; membrane support located at the lower end of the membrane and supporting the membrane.
According to claim 1,
The cell accommodating portion further comprises a sieve holding portion capable of holding the primary porous filtration membrane, characterized in that the cell filtration filter container.
According to claim 1,
A cell filtration filter container further comprising a buffer layer between the membrane support and the membrane.
According to claim 1,
The cell filtration filter container, characterized in that the cell receiving portion and the membrane support portion are detachable.
The cell filtration filter container according to claim 1, wherein the primary porous filtration membrane has a pore size of 100 μm to 150 μm.
According to claim 1,
The spray nozzle is a cell filtration filter container, characterized in that the diameter of the spray nozzle is adjusted so that the liquid cell sample passing through the spray nozzle is sprayed to a range less than the surface area of the upper surface of the membrane.
According to claim 1,
The cell filtration filter container, characterized in that the membrane is a porous membrane having a pore size less than the diameter of the cells to be collected.
According to claim 1,
Cell filtration characterized in that it further comprises a connector for fastening a means for injecting air from the outside to increase the pressure inside the cell accommodation unit or a means for suctioning the sample to the bottom of the cell filtration filter container. filter vessel.

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