KR20190077683A - Apparatus for fixing bio sample using tem cell - Google Patents

Abstract

Disclosed is a device for fixing an ultra-high frequency biological sample using a TEM cell. The present invention comprises: a microwave generator for generating microwaves; a TEM cell chamber receiving the ultra-high frequency generated from the microwave generator to irradiate microwaves to the biological sample; a dummy rod for exhausting the remaining microwaves used from the TEM cell chamber and matching the microwave characteristic; a sample cartridge for placing the biological sample inside the TEM cell chamber; a control part for controlling an internal environment and a state for fixing the biological sample; a ventilator installed in an outer upper part of the TEM cell chamber to discharge the water vapor inside the TEM cell chamber; and a heat sink for emitting heat therein. Therefore, a uniform electric field is formed when microwaves are irradiated to the biological sample using the TEM cell, thereby having excellent utility in treating the biological sample.

Description

TECHNICAL FIELD [0001] The present invention relates to a microwave biological sample fixing apparatus using a template cell,

The present invention relates to a microwave biological sample fixing apparatus using a temcell, and more specifically, by using a TEM (Transverse Electro-Magnetic Wave) cell, a microwave is irradiated on a biological sample to form a uniform electric field, The present invention relates to a microwave biological sample fixation device using a temcell.

A microscope is inspected for tissue for tumor diagnosis (hereinafter referred to as biological sample). At this time, a chemical immobilizing solution is generally used to fix the biological sample.

Chemical fixation requires more than 24 hours of fixation time, and even if fixed under the best conditions, changes in ultrastructural structure, such as protein and lipid elution and conformational change, occur. In order to overcome these limitations, we use the Rapid Tissue Processor method using microwave.

A fast fixing method is disclosed in, for example, Japanese Patent Application No. 10-1242603 (Mar. 23, 2013), Japanese Patent Application No. 10-175429 (November 10, 1998), Japanese Patent Application No. 10-1041764 (June 10, 2011).

The above patents relate to a microwave oven structure having a magnetron. In the microwave oven, a biological sample, a saline solution containing a saline solution, a formalin or a challe containing alcohol is placed in the oven to fix the biological sample. When a plurality of chalets are placed in such a microwave oven, microwave energy is not uniformly irradiated to a plurality of chalets.

In addition, when fixing a biological sample using a conventional microwave generator, the electric field is not uniformly irradiated, so that fixing of the biological sample is not easily performed.

In addition, the microwave tissue processor, which is a general household appliance such as a microwave oven or a competitor of an overseas competitor, is a resonance type TE mode (Transverse Electric Mode), and a uniform electric field is not formed. For this reason, the microwave oven will heat the sample while rotating the turntable.

Patent Registration No. 10-1242603 (Mar. Patent Registration No. 10-175429 (November 10, 1998)

DISCLOSURE OF THE INVENTION An object of the present invention is to solve the above-described problems, and it is an object of the present invention to provide a method for producing a biosensor by using a TEM (Transverse Electro-Magnetic Wave) The present invention provides a microwave biological sample fixing device utilizing a single cell.

In order to achieve the above object, a microwave biological sample fixing apparatus using a temcell according to the present invention comprises: a microwave generator for generating a microwave; A template chamber for receiving microwaves generated from the microwave generator and irradiating a microwave to the biological sample; A dummy rod for exhausting the remaining microwaves used from the temcell chamber and matching microwave characteristics; A sample cartridge for placing a biological sample inside the template cell chamber; A control unit for controlling an internal environment and a state for fixing a biological sample; A ventilator installed at an upper portion of the outside of the template cell chamber for discharging water vapor inside the template cell chamber; And a heat sink for discharging heat inside.

A microwave inlet conduit connecting the microwave generator and the stem cell chamber; And a microwave exhaust conduit connecting the template chamber and the dummy rod.

The microwave input conduit is connected to the microwave generator through a first connector and to the inlet side of the temcell chamber through a second connector,

The microwave exhaust conduit is connected to the outlet side of the microwave generator through a third connector and is connected to the dummy rod through a fourth connector.

The sample cell chamber includes an upper housing having a chamber inlet for withdrawing the sample cartridge; A lower housing positioned below the upper housing and coupled with the upper housing; And a diaphragm plate installed across a central portion where the upper housing and the lower housing are coupled.

A second connector for connecting to the microwave input conduit is provided on one side of the diaphragm plate and a third connector for connecting to the micro discharge conduit is provided on the other side of the diaphragm plate.

And a cartridge accommodating portion capable of accommodating the sample cartridge is additionally provided at the center of the diaphragm plate.

And a non-contact infrared temperature sensor provided at one side of the template cell chamber so as to direct the biological sample cartridge.

According to the present invention, by using a TEM (Transverse Electro-Magnetic Wave) cell, a uniform electric field is formed when a microwave is irradiated on a biological sample, thereby having an excellent utility in treating a biological sample.

FIG. 1 is a perspective view of a microwave biological sample fixing apparatus using a template cell according to the present invention.
2 is an internal perspective view of FIG.
FIG. 3 is a side perspective view of FIG. 2. FIG.
FIG. 4 is an exploded perspective view showing a dissolution of a temcell chamber in a microwave biological sample fixing apparatus using a temcell according to the present invention.
FIG. 5 is a schematic view schematically showing the template cell chamber of FIG. 4; FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

FIG. 1 is a perspective view of a microwave biological sample fixing apparatus using a template cell according to the present invention, FIG. 2 is an internal perspective view of FIG. 1, and FIG. 3 is a side perspective view of FIG.

As shown in FIGS. 1 to 3, the microwave biological sample fixing apparatus using the template cell according to the present invention has a case 1 covering the outside. The case 1 is preferably made of a plastic material, but may be formed of various materials.

On one side of the upper part of the case 1, a display unit 3 capable of displaying the progress of the biological specimen fixing apparatus is provided. The display unit 3 may be a touch-type LCD panel.

Inside the case 1, various components for fixing the biological sample are included.

The microwave biological sample fixing apparatus using the template cell includes a microwave generator 20 for generating microwaves, a template cell 50 for applying microwaves to the biological sample after receiving the microwaves generated from the microwave generator 20, A dummy load 25 for exhausting the remaining microwave from the template cell chamber 50 and matching with the microwave characteristic, a sample cartridge 10 for positioning the biological sample inside the template cell chamber 50, A control unit 30 for controlling an internal environment and a state for the fixing device case 1, and a heat dissipating plate 35 for emitting heat inside the fixing device case 1.

The microwave generator 20 is a device capable of generating and amplifying a microwave having a frequency of 2.45 GHz. The microwave generated in the microwave generator 20 is applied to the tem- cell chamber 50 via the microwave input conduit 21. [

The microwave input conduit 21 is connected to the microwave generator 20 through a first connector 26 and to the inlet side of the temcell chamber 50 through a second connector 27.

The tem-cell chamber 50 is connected to the dummy rod 25 by a microwave exhaust conduit 23. The microwave exhaust conduit 23 is connected to the outlet of the microwave generator 20 through a third connector 28 and to the dummy rod 25 through a fourth connector 29.

4, the template cell chamber 50 includes an upper housing 51, a lower housing 53 positioned below the upper housing 51 and coupled with the upper housing 51, And a diaphragm plate 55 installed across a central portion where the upper housing 51 and the lower housing 53 are coupled.

A second connector 27 for connecting to the microwave input conduit 21 is provided on one side of the metal plate 55 and a second connector 27 for connecting to the micro discharge conduit 23 is provided on the other side of the metal plate. Three connectors 28 are provided.

A chamber inlet 5 is formed on the front surface of the upper housing 51, through which the sample cartridge 10 can be inserted and withdrawn.

A cartridge accommodating portion 57 capable of accommodating the sample cartridge 10 is provided at the center of the diaphragm plate 55. Therefore, the sample cartridge 10, which enters and exits through the chamber inlet 5 of the upper housing 51, can be received in the cartridge receiving portion 57. In this state, It can be done.

The sample cartridge 10 may be provided with a partition member 11 so that a plurality of samples can be simultaneously fixed.

A ventilator 40 may be installed on the upper side of the upper housing 51 of the temcell chamber 50. The ventilator 40 may be configured such that the buffer solution evaporates during microwave irradiation in the temcell chamber 50 And discharges the generated water vapor to the outside.

If the water vapor is left in the tem- cell chamber 50 and water droplets are deposited on the infrared temperature sensor due to the water vapor, sensing may not be performed, and thus the ventilator 40 is indispensable.

The non-contact infrared temperature sensor 45 may be installed at one side of the upper housing 51, and the infrared temperature sensor 45 may be disposed to direct the biological sample cartridge 10. Therefore, when the infrared temperature sensor 45 sets the temperature of the biological sample to 40 캜 and reaches the temperature, the irradiation of the microwave can be stopped.

Hereinafter, the operation of the microwave biological sample fixing apparatus utilizing the temcell according to the present invention will be described.

As shown in FIG. 5, the microwave generated from the microwave generator 20 is applied to the interior of the template cell chamber 50 through the microwave input conduit 21. The applied microwave is irradiated to the samples placed inside the sample cartridge 10, and a uniform electric field E can be formed inside the tem- cell chamber 50 at this time.

When the microwave is irradiated, the ventilator (40) is continuously operated so that water vapor is not left in the tem- cell chamber (50).

In addition, the microwaves irradiated from the template cell chamber 50 are exhausted through the microwave exhaust conduit 23 to the dummy rod 25 and exhausted.

When the infrared temperature sensor 45 measures the temperature of the sample and reaches the set temperature, the irradiation of the microwave is stopped and the sample cartridge 10 is taken out.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: Case 3:
5: chamber inlet 10: sample cartridge
11: partition member 20: microwave generator
21: microwave input conduit 23: microwave outlet conduit
25: dummy load 26: first connector
27: second connector 28: third connector
29: fourth connector 30:
35: heat sink 40: ventilator
45: Infrared ray temperature sensor 50: Tem cell chamber
51: upper housing 53: lower housing
55: diaphragm plate 57: cartridge receiving portion

Claims (7)

A microwave generator for generating a microwave;
A template chamber for receiving microwaves generated from the microwave generator and irradiating a microwave to the biological sample;
A dummy rod for exhausting the remaining microwaves used from the temcell chamber and matching microwave characteristics;
A sample cartridge for placing a biological sample inside the template cell chamber;
A control unit for controlling an internal environment and a state for fixing a biological sample;
A ventilator installed at an upper portion of the outside of the template cell chamber for discharging water vapor inside the template cell chamber; And
And a heat sink for discharging heat inside the microwave sample holder. The method according to claim 1,
A microwave inlet conduit connecting the microwave generator and the stem cell chamber; And
And a microwave exhaust conduit connecting the template cell chamber and the dummy rod to each other. 3. The method of claim 2,
The microwave input conduit is connected to the microwave generator through a first connector and to the inlet side of the temcell chamber through a second connector,
Wherein the microwave exhaust conduit is connected to the outlet side of the microwave generator through a third connector and is connected to the dummy rod through a fourth connector. The method according to claim 1,
The tem- plate chamber includes:
An upper housing having a chamber inlet for withdrawing the sample cartridge;
A lower housing positioned below the upper housing and coupled with the upper housing; And
And a diaphragm plate installed across a central portion where the upper housing and the lower housing are coupled with each other. 5. The method of claim 4,
And a second connector for connecting to the microwave input conduit is installed on one side of the diaphragm plate and a third connector for connecting to the micro discharge conduit is provided on the other side of the diaphragm plate. Biological sample fixture. 6. The method of claim 5,
Wherein a cartridge accommodating portion capable of accommodating the sample cartridge is further provided at the center of the diaphragm plate. 7. The method according to any one of claims 1 to 6,
Further comprising a non-contact infrared temperature sensor installed at one side of the template cell chamber so as to direct the biological sample cartridge.

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