KR101532282B1 - Animal cell killing laboratory vessel with a particle beam - Google Patents

Abstract

The present invention relates to a container (1000) for animal cell death experiment using a particle beam, wherein an injection port (101) for injecting a culture liquid into each of left and right sides, and an insertion hole (102) are formed, A container body 100 including a plurality of guide walls 110 arranged in a vertical direction; A plurality of slide bases (200) slidably inserted into upper surfaces of the guide walls (110) through the insertion holes (102) and having an animal cell sample on its upper surface; And a cover (300) covering the insertion hole (102). The container for an animal cell death experiment using a particle beam.

Description

Animal cell killing laboratory vessel with a particle beam using particle beam

The present invention relates to a container for animal cell death experiments using particle beams.

A particle beam is a thin stream in which microscopic particles such as atoms, electrons, neutrons, positons, cations or nuclei move in a vacuum or in an atmosphere in one direction. It is also called particle beam or mouth suicide. The traveling direction of the cavity may be changed according to the position of the career, and each particle hardly collides with each other inside.

The types of particle beam include molecular beam, atomic beam, electron beam with neutron beam charge, bipolar beam, various kinds of radiation, and many waves of de Broglie wave appear. X-rays are electromagnetic waves, but they are often included because they have particle properties. By measuring and analyzing the direction and intensity of scattering when colliding with a substance, it is possible to obtain the atomic distribution of electrons in the material and the spatial distribution of electrons directly. The electron beam can be an electron in a surface, a thin film, The distribution can be explained.

In addition, the spatial distribution of magnetic electrons can be obtained by using the properties of neutrons having magnetic properties.

Cell death means that the cell itself is killed by a program designed according to its own signaling system.

A particle accelerator is a device that generates atoms by discharging atoms containing hydrogen to obtain ions, and then accelerates the ions at a high speed near the speed of light using an electric field.

Currently, there are more than 50 places where 100 MeV class particle accelerators are operated globally. Most of them are used for basic research and medical purposes, but they are not used directly in industry.

The particle accelerator sector is an infrastructure that has a tremendous ripple effect on all industries, and the world's advanced countries are increasingly supporting it. It is expected to be applied in various business fields such as cancer treatment, new material development and isotope production through device application technology and beam application technology. In particular, it is expected to be applied to next-generation industries such as nanotechnology and bio- .

Domestic patent documents using published particle beams have been used to make combinations comprising implantable medical devices and active ingredients having direct or indirect therapeutic effects on the components and the animal or human body, The present invention relates to the use of a particle beam for sterilization and disinfection, such as removing microorganisms and organic materials simultaneously without injecting chemicals by irradiation of electron beams to the effluent generated in the treatment plant.

In addition, in the international patent documents, there is an example that is used to reduce the cost, time, manpower, toxic chemical use, and sterilize the biotissue to be transplanted more than the gamma ray through the particle beam irradiation, And the use of particle beams to increase the shelf-life of foods. There is also a patent document which utilizes a device for exposing a hair growth structure to an electromagnetic radiation source to promote hair growth with clinically effective light intensity, and a particle beam for removing bacteria from an oxygen supply device.

In the animal cell death experiment using the particle beam, the influence of the particle beam applied to the animal cell sample on the linear energy transfer (LET) is measured. Here, LET is the amount of energy given to the medium per unit distance according to the projection of the impulsive beam.

At this time, it is very important to measure the influence of the particle beam on the LET of the animal cell sample in the animal cell death experiment using the particle beam. Even if the same doses are delivered, different LETs may cause different signal transduction mechanisms in animal cells. In order to conduct a study on LET, different energy should be used for each experiment group.

Korean Patent Laid-Open Publication No. 2007-0025215 discloses a hollow container unit having a through-hole formed therein so as to form a receiving space for a subject, and a glass material or a synthetic resin material And an upper transparent plate and a lower transparent plate.

However, in the prior art, when measuring the effect of LET of a particle beam applied to an animal cell sample in an animal cell death experiment using a particle beam, a particle beam is passed through a plurality of container units in which animal cell samples are arranged, There is a problem that it is difficult for the particle beam to pass through the containers at the same time.

In particular, the prior art has to obtain as much data as possible (or impact data on the LET of the particle beam) in a single experiment, but only a part of the data can be obtained in a single experiment, There is a problem that the error increases.

Therefore, it is necessary to develop a container for animal cell death experiments using various particle beams to solve the above-mentioned problems.

Korean Published Patent Application No. 2007-0025215 (2007.08.08)

Disclosure of the Invention The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method for measuring the effect of a particle beam on an LET (linear energy transfer) , And to provide a vessel for animal cell death experiments using a particle beam capable of obtaining as much data as possible in a single experiment (or impact data on LET of the particle beam).

The container for animal cell death experiment using the particle beam according to the present invention is characterized in that an injection port and an insertion hole for injecting the culture liquid are formed on the left side and the right side respectively and a plurality of guides A container body including a wall; A plurality of slide bases slidably inserted into upper surfaces of the guide walls through the insertion holes and having animal cell samples on its upper surface; And a cover covering the insertion hole.

Accordingly, the container for animal cell death experiment using the particle beam according to the present invention has an injection port and an insertion hole for injecting the culture liquid into the left side and the right side, respectively, and is vertically arranged on the inner side of the front side and the inner side of the rear side A container body including a plurality of guide walls; A plurality of slide bases slidably inserted into upper surfaces of the guide walls through the insertion holes and having animal cell samples on its upper surface; And a cover covering the insertion hole. In the measurement of the influence of the particle beam applied to the animal cell sample on the linear energy transfer (LET) in the animal cell death experiment using the particle beam, It is possible to measure data corresponding to each LET while passing through a plurality of slide bases arranged in a multi-layered structure inside the body at one time, so as to obtain as much data as possible (or influence data on the LET of the particle beam) There is an effect.

1 is a perspective view of a vessel for animal cell death experiments using a particle beam according to the present invention;
FIG. 2 is an exploded perspective view of a container for animal cell death experiments using a particle beam according to the present invention. FIG.
FIG. 3 is a cross-sectional view of a container for animal cell death experiments using a particle beam according to the present invention
FIG. 4a is a BB` sectional view of a container for animal cell death experiments using a particle beam according to the present invention
FIG. 4B is a cross-sectional view of BB 'of the container for the animal cell death experiment using the particle beam according to the present invention,

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

In the direction display of the present invention, the left side of the drawing is the left side, the right side of the drawing is the right side, the front side of the drawing is the front side, the rear side of the drawing is the rear side, the upper side of the drawing is the upper side, Direction.

The present invention relates to a container for animal cell death experiments using particle beams.

FIG. 1 is a perspective view of a container for an animal cell death experiment using a particle beam according to the present invention, FIG. 2 is an exploded perspective view of a container for animal cell death experiment using a particle beam according to the present invention, and FIG. FIG. 4A is a BB 'sectional view of a container for an animal cell death experiment using a particle beam according to the present invention, FIG. 4B is a cross-sectional view of a container body for an animal cell death experiment using a particle beam according to the present invention, And the cover is separated from the BB '.

1 to 3, a container 1000 for animal cell death experiment using a particle beam according to the present invention includes a container body 100, a plurality of slide bases 200, and a cover 300 do.

The container body 100 is configured to perform an animal cell death experiment using a particle beam, and may be formed in a rectangular tube shape whose left side is convex.

In addition, the container body 100 is provided with an injection port 101 through which a culture liquid is injected into the left side, an insertion hole 102 formed at the center of the right side, and arranged vertically inside and inside the front and rear sides, respectively And a plurality of guide walls 110 formed on the guide walls 110.

The injection port 101 may be formed in a cylindrical shape protruding from the left side of the container body 100. A culture medium for providing nutrients necessary for culturing the animal cells is injected. The injection port 101 may be opened or closed by a lid (not shown).

The insertion hole 102 is a space for inserting the slide base 200, and may be formed in a rectangular shape.

The guide walls 110 serve to mount the slide bases 200, respectively.

The slide bases 200 are inserted into the interior of the container body 100 through the insertion holes 102 and are slidably inserted into upper surfaces of the guide walls 110, do.

The animal cell sample is preferably a single-celled animal so that it can survive as long as possible.

At this time, the slide bases 200 may be formed in a plate shape, but the present invention is not limited thereto.

The cover 300 serves to cover the insertion hole 102.

At this time, the cover 300 preferably seals the insertion hole 102.

The container body 100, the slide base 200, and the cover 300 are preferably made of the same material for smooth passage of the particle beam.

In the measurement of the effect of the particle beam applied to the animal cell sample on the linear energy transfer (LET) in the animal cell death experiment using the particle beam, the container 1000 for animal cell death experiment using the particle beam according to the present invention, The beam is passed from the upper side or the lower side of the container main body 100 toward the container main body 100, and the influence of the particle beam applied to the animal cell sample on the LET is measured.

At this time, the particle beams are transmitted to the slide base 200, which are arranged in parallel in the vertical direction in the multi-layer structure inside the container body 100 by the guide walls 110, Data is measured.

Accordingly, in the vessel 1000 for animal cell death experiment using the particle beam according to the present invention, the injection port 101 and the insertion hole 102 through which the culture liquid is injected are formed on the left side and the right side, respectively, A container body 100 including a plurality of guide walls 110 arranged in a vertical direction on the inner side; A plurality of slide bases (200) slidably inserted into upper surfaces of the guide walls (110) through the insertion holes (102) and having an animal cell sample on its upper surface; And the cover (300) covering the insertion hole (102), thereby measuring the influence of the particle beam on the linear energy transfer (LET) applied to the animal cell sample in the animal cell death experiment using the particle beam Thus, it is possible to measure data according to each LET while passing a plurality of slide bases 200 in which the particle beam is arranged in a multi-layered structure inside the container body 100 at once, so that a large amount of data The influence data on the LET of the particle beam) can be obtained.

Meanwhile, a container (1000) for animal cell death experiment using a particle beam according to the present invention may further include a scale (not shown) indicating the length in the left and right direction on the upper surface of the guide wall (110).

The scale serves to indicate the length of the slide base 200 in the horizontal direction in which the slide base 200 is inserted into the upper surface of the guide wall 110.

However, when the guide walls 110 are spaced apart from each other in the vertical direction, the particle beams may not pass through the plurality of slide bases 200 at a time , And preferably 1 to 5 mm.

In addition, the container 1000 for animal cell death experiments using the particle beam according to the present invention includes particles (particles) applied to an animal cell sample by passing a particle beam from the upper side or the lower side of the container body 100 toward the container body 100, The effect of the beam on the LET is measured by separating the cover 300 from the container body 100 and then separating the slide glasses located inside the container body 100 from the container body 100, And then the state of the animal cell sample provided on the upper side of the slide glass is measured.

At this time, in order to measure the state of the animal cell sample provided on the upper side of the slide glass, a fluorescence staining method in which an animal cell sample is stained can be used.

More specifically, the fluorescent staining method refers to the use of a fluorescent dye of brown acridine to produce a reddish orange color that binds to RNA of animal cells, or a yellow-green color that binds to DNA. It is mainly used for observation of inclusion bodies by glaze cells or tumor cell viruses.

In the container 1000 for animal cell death experiments using the particle beam according to the present invention, a plurality of fitting pins 120 protrude from the right side edge of the container body 100, A plurality of fitting grooves 301 for fitting the fitting pins 120 are formed on the opposite surface rim opposite to the fitting groove 120.

The fitting pin 120 may be formed in a cylindrical shape, and the fitting groove 301 is formed in a shape corresponding to the fitting pin 120.

Accordingly, the container body 100 and the cover 300 can be firmly coupled to each other by the fitting pins 120 and the fitting grooves 301.

In addition, the cover 300 is provided with the protrusions and depressions 310 on the outer edge of the rim on which the fitting grooves 301 are formed.

The concavity and convexity 310 serves to visually show a portion where the container body 100 and the cover 300 are coupled to each other.

The protrusions 310 are formed on the outer rim of the rim on which the support grooves 311 are formed and the support grooves 311 formed on the outer rim of the rim on which the fitting grooves 301 are formed in the cover 300 And an opening groove 312.

The protrusion 310 may be formed so that the support groove 311 is deeper in the direction opposite to the fitting pin 120 than the opening groove 312.

At this time, the container 1000 for animal cell death experiment using the particle beam pulls the cover 300 using a nipper for holding the support groove 311 so that the container body 100 and the cover 300 are separated from each other .

4A and 4B, the container 1000 for animal cell death experiments using the particle beam has a right side edge of the container body 100 and an opposite side of the cover 300 facing the fitting pin 120, A separating mechanism is inserted between the right side edge of the container body 100 and the opposite side edge of the cover 300 facing the fitting pin 120 through the protrusions 310, So that the container body 100 and the cover 300 can be separated from each other. Here, the separating mechanism may be a blade or a separating blade.

In addition, the container 1000 for animal cell death experiments using the particle beam according to the present invention may be made of a transparent polymer material.

Particularly, the container 1000 for animal cell death experiments using the particle beam according to the present invention may be coated with silver nanoparticles on the container body 100, the slide base 200, and the cover 300 for antibacterial activity.

In addition, a label (not shown) may be attached to an outer surface of the container body 100 to display information on animal cell samples, in a container 1000 for animal cell death using the particle beam according to the present invention.

In addition, the container 1000 for animal cell death experiments using the particle beam according to the present invention may contain a phase change material between the inner surface and the outer surface of the container body 100 for internal warming of the container body 100 .

Here, the phase change material refers to a thermostable functional material that stores (latent heat) or releases (dissipates) heat while changing from a liquid state to a solid state and from a solid state to a liquid state depending on the temperature.

In addition, the phase change material may be selected from the group consisting of n-paraffin, poly ethylene glycol, Na ₂ SO ₄ 10H ₂ O, Na ₂ HPO ₄ 12H ₂ O, Zn (NO ₃ ) ₂ 6H ₂ O, Na ₂ S ₃ O ₃ 5H ₂ O, And NaCH ₃ COO ₃ H ₂ O. Among them, Na ₂ HPO ₄ 12H ₂ O, which has the highest latent heat, is preferable.

Also, the container 1000 for animal cell death experiments using the particle beam according to the present invention can be manufactured by injection molding.

In addition, the animal cell apoptosis test vessel 1000 using the particle beam according to the present invention may be fixed to a fixture having a frame corresponding to the shape of the container 1000, and an animal cell death experiment may be performed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: container for animal cell death experiment using particle beam according to the present invention
100:
101: inlet
102: insertion hole
110: guide wall
120:
200: slide base
300: cover
301: Fitting groove
310: unevenness
311: Support groove
312: opening groove

Claims (7)

A container (1000) for animal cell death experiment using a particle beam,
And a plurality of guide walls 110 formed on the inner side of the front side and the inner side of the rear side in the vertical direction, respectively, wherein the inlet 101 and the insertion hole 102 are formed in the left and right sides, respectively, A container body 100;
The guide walls 110 are slidably inserted into the upper surfaces of the guide walls 110 through the insertion holes 102 so that both sides thereof are supported by the guide walls 110 and a plurality of animal cells A slide base 200; And
And a cover (300) covering the insertion hole (102). The container (1000) for an animal cell death experiment using a particle beam.
The method according to claim 1, wherein the container (1000) for animal cell death experiments using the particle beam
A plurality of fitting pins 120 are formed on the right side edge of the container body 100,
Wherein a plurality of fitting grooves (301) for fitting the fitting pins (120) are formed on the opposite face of the cover (300) opposite to the fitting pin (120) (1000).

3. The apparatus of claim 2, wherein the cover (300)
And a protrusion (310) is formed on an outer edge of the rim on which the fitting grooves (301) are formed.
[4] The method of claim 3,
A support groove 311 formed at an outer edge of a frame formed with the fitting grooves 301 in the cover 300 and an opening groove 312 formed at an outer edge of the frame formed with the support groove 311, (1000) for an animal cell death experiment using a particle beam.
[5] The method of claim 4,
Wherein the support groove (311) is formed deeper in a direction opposite to the fitting pin (120) than the opening groove (312).
4. The animal cell death test container (1000) according to claim 3, wherein the container
The rim of the right side of the container body 100 and the opposite rim of the cover 300 facing the fitting pin 120 are attached to each other via an adhesive,
A separating mechanism is inserted between the right side edge of the container body 100 and the opposite side edge of the cover 300 facing the fitting pin 120 through the unevenness 310 to separate the container body 100 and the cover 300 ) Are separated from each other. The container for an animal cell death experiment (1000) using a particle beam.
The method according to claim 1, wherein the container (1000) for animal cell death experiments using the particle beam
Wherein all of the above components are made of a polymer material.

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