WO2018139099A1

WO2018139099A1 - Analysis-cell disposal container, disposable analysis cell, and analysis-cell disposable kit

Info

Publication number: WO2018139099A1
Application number: PCT/JP2017/045014
Authority: WO
Inventors: 典弘松山
Original assignee: 株式会社ダナフォーム
Priority date: 2017-01-25
Filing date: 2017-12-15
Publication date: 2018-08-02

Abstract

Provided is a tool for safely disposing of an analysis cell after completion of analysis regardless of the danger level of a sample that is analyzed. An analysis-cell disposal container according to the present invention is characterized by including an accommodation chamber, an engaging part, and an engagement releasing part, and is characterized in that the accommodation chamber includes a space for accommodating an analysis cell and has an opening that can be opened and closed, the engaging part is an engaging part that can be engaged with the analysis cell, the engagement releasing part is a releasing part that can release the mutual engagement of the analysis cell and an analysis device, and when in use, with the opening of the accommodation chamber opened, the analysis cell inserted into the analysis device is accommodated inside the accommodation chamber, the analysis cell is brought into engagement by using the engaging part, the mutual engagement of the analysis cell and the analysis device is released by using the engagement releasing part, the analysis device is withdrawn from the accommodation chamber, and with the analysis cell accommodated in the accommodation chamber, the opening of the accommodation chamber is closed.

Description

Analysis cell disposal container, disposal analysis cell, and analysis cell disposal kit

The present invention relates to an analysis cell disposal container, a disposal analysis cell, and an analysis cell disposal kit.

In recent years, in genetic testing, a form of performing analysis using an analysis device using a disposable analysis cell has become common. Usually, a biological sample is added to an analysis cell, the analysis cell is set in the analysis device, a nucleic acid amplification reaction or the like is performed, and the reaction is analyzed. When the analysis is completed, the analysis cell is taken out from the analysis device, and the analysis cell is discarded.

However, the analysis cell that has been analyzed contains the biological sample, and depending on the biological sample, there may be cases in which an analyzer or an object that pollutes the environment such as a laboratory in which analysis is performed is included. is there. For example, when the biological sample is infected with HIV, hepatitis virus, influenza virus, etc., the analyst may be secondaryly infected by contact with the analysis cell. Further, in the case of a detection system that performs nucleic acid amplification, for example, if the amplified product after the analysis leaks out of the system, there is a possibility that subsequent detection performed near the leakage area may be disabled.

Therefore, an object of the present invention is to provide a tool for safely discarding an analysis cell after completion of analysis, for example, regardless of the risk level of a sample to be analyzed.

In order to achieve the above object, the analysis cell waste container of the present invention comprises:
A storage chamber, a coupling portion and a coupling release portion;
The containment chamber is
Having a storage space for the analysis cell;
Has an openable and closable opening,
The coupling portion is
It is a coupling part that can be coupled with the analysis cell,
The uncoupling part is
A release unit capable of releasing the coupling between the analysis cell and the analysis device;
while using it,
In the state where the opening of the storage chamber is opened, the analysis cell in a state inserted into the analysis device is stored inside the storage chamber,
Combined with the analysis cell by the combining unit,
Release the coupling between the analysis cell and the analysis device by the coupling release unit,
Pull out the analytical device from the containment chamber,
The opening of the storage chamber is closed in a state where the analysis cell is stored in the storage chamber.

The disposal analysis cell of the present invention has an analyzed part, a first coupled part, and a second coupled part,
The first coupled portion is
A coupled portion that can be coupled to an analytical device;
The second coupled portion is
It is a coupled part that can be coupled with the analysis cell waste container,
At the start of analysis,
The first coupled portion is coupled to the analysis device,
After the analysis
The second coupled part is coupled to the coupling part of the analysis cell disposal container,
The coupling with the analysis device in the first coupled part is released by the coupling releasing part of the analysis cell disposal container.

The analysis cell disposal kit of the present invention includes the analysis cell waste container of the present invention and the analysis cell of the present invention.

The analysis device of the present invention includes a coupling unit and an analysis unit, and the coupling unit is a coupling unit that can be coupled to the first coupled unit of the analysis cell of the present invention. An analysis unit for analyzing an analysis target portion of the analysis cell, wherein the combination with the analysis cell in the combination unit can be released by the analysis cell disposal container or the dedicated release device of the present invention.

According to the present invention, for example, an analyst can discard the analysis cell without directly touching the analysis cell after completion of the analysis and without exposing the analysis cell to the analysis environment. For this reason, high safety can be ensured.

FIG. 1 is a perspective view illustrating an example of an analysis cell and an analysis device according to the first embodiment. FIG. 2 is a perspective view showing an outline of an analysis cell waste container and a method for using the same in the first embodiment. FIG. 3 is a plan view illustrating an outline of an example of an analysis cell, an analysis device, and an analysis cell waste container in the second embodiment. FIG. 4 is a plan view schematically showing a method for using the analysis cell waste container in the second embodiment. FIG. 5 is a plan view showing an outline of a method of using the analysis cell waste container in the second embodiment.

In the analysis cell disposal container of the present invention, for example, the coupling unit also serves as the releasing unit, and the coupling unit is coupled to the analysis cell, and the coupling between the analysis cell and the analysis device is released. .

In the analysis cell waste container of the present invention, for example, the storage chamber has a bag shape.

In the analysis cell waste container of the present invention, for example, the storage chamber is flexible.

In the analysis cell waste container of the present invention, for example, the opening of the storage chamber has a chuck portion, and can be opened and closed by the chuck portion.

In the analysis cell waste container of the present invention, for example, the storage chamber has a gripping portion at the other end of the opening.

In the analysis cell disposal container of the present invention, for example, the grip portion is a handle type.

Hereinafter, the present invention will be described more specifically with examples. However, the present invention is not limited by the following description.

[Embodiment 1]
Embodiment 1 demonstrates an example of an analysis cell disposal container using a figure.

The outline of the analysis cell and the analysis device is shown in the perspective view of FIG. As shown in FIG. 1A, the analysis cell 10 has a gripping portion 101 and an analysis substrate 102. The gripping portion 101 has a portion 104 to be coupled to an analysis cell disposal container described later. And a plurality of reaction units 103. In each of the plurality of reaction units 103, for example, a part or all of the reaction units 103 are analyzed units analyzed by the analysis device. As shown in FIG. 1A, the analysis device 20 has a storage chamber 201 that stores the analysis cell 10. When the sample is added to the reaction unit 103 of the analysis cell 10 in use, the analysis cell 10 is inserted into the storage chamber 201 of the analysis device 20 as shown in FIG. As shown in FIG. 2, the analysis substrate 102 of the analysis cell 10 is accommodated in the accommodation chamber 201 of the analysis device 20 and reacted.

FIG. 2 is a perspective view schematically showing the use of the analysis cell waste container 30 and the analysis cell waste container 30. As shown in FIG. 2A, the analysis cell waste container 30 has a storage chamber 301. The storage chamber 301 has a bag shape with one open, and has an openable / closable chuck portion 303 on the opening 302 side. The storage chamber 301 has a storage space in which the analysis cell 10 inserted in the analysis device 20 can be stored. The storage chamber 301 has a fixing portion 306 on the side opposite to the opening 302, and a holding portion 305 is fixed to the fixing portion 306 toward the outside of the storage chamber 301, and toward the inside of the storage chamber 301. The coupling portion 304 is fixed. The grip 305 is a handle type and is a part for facilitating the handling of the analysis cell waste container 30. The coupling unit 304 serves as a coupling unit that can be coupled to the analysis cell 10 and a release unit that can decouple the analysis cell 10 and the analysis device 20.

Next, a method of using the analysis cell waste container 30 will be described with reference to FIG. As shown in FIGS. 2A and 2B, the analysis cell 10 is accommodated in the accommodation chamber 301 while being inserted into the analysis device 20 from the opening 302 of the analysis cell disposal container 30. At this time, the analysis cell disposal container 30 and the analysis cell 10 are fixed by coupling the coupling portion 304 of the analysis cell disposal container 30 with the coupled portion 104 of the analysis cell 10, and the analysis cell 10 and the analysis device are fixed. 20 is released. The mechanism for coupling with the analysis cell 10 and the coupling release between the analysis cell 10 and the analysis device 20 by the coupling unit 304 of the analysis cell disposal container 30 is not particularly limited. An example of the mechanism will be described later.

As described above, the analysis cell disposal container 30 is coupled to the analysis cell 10 by the coupling unit 304, and the coupling between the analysis cell 10 and the analysis device 20 is released. Therefore, as shown in FIG. 2C, by pulling the grip portion 305 of the analysis cell waste container 30 in the direction opposite to the analysis device 20, the analysis cell waste container 30 and the analysis cell 10 coupled thereto are obtained. Separate from the analysis device 20. As a result, the analysis cell 10 is accommodated in the accommodation chamber 301 of the analysis cell disposal container 30 as shown in FIG. Then, as shown in FIG. 2D, the chuck of the analysis cell waste container 30 is closed. As a result, the analysis cell 10 can be discarded while being stored in the storage chamber 301 of the analysis cell disposal container 30 without being exposed to the outside. Thereby, for example, the amplified product after analysis can be prevented from leaking out of the system.

The analysis cell disposal container 30 accommodates the analysis cell 10 in a state of being coupled to the analysis device 20 in the storage chamber 301, and after separating the analysis device 20 from the analysis cell 10, the opening 302 is formed in the chuck portion 303. Need to close. For this reason, for example, since the handleability is excellent, the storage chamber 301 is preferably formed of, for example, a flexible material. Examples of the flexible material include polyolefins such as polyethylene, polypropylene, polytetrafluoroethylene, and polybutylene terephthalate; polyvinyl chloride such as soft polyvinyl chloride; polyvinyl alcohol; ethylene-vinyl acetate copolymer resin; silicon; Examples thereof include resins such as nylon. The storage chamber 301 is preferably a transparent member or a translucent member so that the inside can be confirmed, for example.

The opening 302 of the analysis cell disposal container 30 only needs to be openable and closable. For example, the opening and closing is performed by the chuck portion 303 as described above. The opening and closing by the chuck portion 303 is, for example, a slide type.

In the present invention, the type of the analysis cell 10 is not particularly limited, and examples thereof include cells used for nucleic acid amplification reaction systems, antigen-antibody reaction systems, and the like.

[Embodiment 2]
Embodiment 2 demonstrates an example of the mechanism of the coupling | bonding of the analysis cell to an analysis device, the coupling | bonding with the analysis cell waste container to an analysis cell, and the decoupling | bonding of the analysis cell from an analysis device using a figure.

3 to 4 are schematic views showing a coupling and decoupling mechanism between the analysis cell, the analysis device, and the analysis cell waste container. FIG. 3 is a plan view schematically showing an analysis cell, an analysis device, and an analysis cell waste container. 3 and 4 are for the purpose of explaining the outline of the mechanism, and the other configurations are omitted.

FIG. 3A is a plan view of the analysis cell 10, and a pair of coupled portions 104 for coupling to the analysis device 20 and the analysis cell waste container 30 at both ends in the direction perpendicular to the coupling direction to the analysis device 20. The coupled portion 104 is concave. Next, FIG. 3B is a plan view of the analysis device 20, and has a pair of coupling portions 204 for coupling with the analysis cell 10 at both ends in the direction perpendicular to the coupling direction with the analysis cell 10. The pair of coupling portions 204 has a hook portion 204a with respect to the inner direction at one end and a fulcrum 204b fixed at the other end. The coupling portion 204 is connected to a compression spring 205 fixed to the analysis device 20 on the hooking portion 204a side. Next, FIG. 3C is a plan view of the analysis cell waste container 30, which is coupled to the analysis cell 10 at both ends in the direction perpendicular to the coupling direction to the analysis cell 10, and the analysis cell 10 and the analysis device. 20 has a pair of coupling portions 304 for releasing the coupling with the unit 20. The pair of coupling portions 304 has a hooking portion 304a for the inner direction at one end.

First, the analysis cell 10 is coupled to the analysis device 20. As shown in FIGS. 4A and 4B, the analysis cell 10 is inserted into the analysis device 20 in the direction of the arrow. When the analysis cell 10 is completely inserted into the analysis device 20, the hook portion 204 a of the coupling portion 204 of the analysis device 20 is hooked on the concave coupled portion 104 of the analysis cell 10, and the analysis cell 10 is attached to the analysis device 20. Fixed.

Next, an analysis cell waste container 30 is prepared for the analysis cell 10 fixed to the analysis device 20 shown in FIG. 4C, and as shown in FIG. The analysis cell waste container 30 is put on the analysis cell 10 fixed in the analysis device 20. Then, as shown in FIG. 5B, the tip of the coupling portion 304 of the analysis cell disposal container 30 hits the tip of the hook portion 204a of the coupling portion 204 in the analysis device 20, and the concave coupled portion of the analysis cell 10 is obtained. 104 and the hooking part 204a of the analysis device 20 are released. Then, the hooking portion 304a of the coupling portion 304 in the analysis cell disposal container 30 is hooked on the concave coupled portion 104 of the analysis cell 10, and the analysis cell 10 is released from the coupling with the analysis device 20, and the analysis cell disposal container 30 is fixed. Then, as shown in FIG. 5 (C), the analysis device 20 is gripped and the analysis cell waste container 30 is pulled in the direction of the arrow, so that the analysis device 20 is fixed to the analysis cell waste container 30. The analyzed analysis cell 10 can be pulled out. Since the extracted analysis cell 10 is stored in the storage chamber 301 of the analysis cell disposal container 30, it can be discarded without being exposed to the outside by closing the opening 302 as described above.

Note that the release of the connection between the analysis device 20 and the analysis cell 10 is not limited to these embodiments, and may be released by, for example, a dedicated lock release device. In this case, for example, the unlocking device hits the tip of the hooking portion 204a of the coupling portion 204 in the analysis device 20 in the same manner as the tip of the coupling portion 304 of the analysis cell disposal container 30, and the concave coupled portion of the analysis cell 10 is connected. The part 104 and the hooking part 204a of the analysis device 20 may have a part that releases the hook.

According to the present invention, for example, an analyzer can discard the analysis cell without directly touching the analysis cell after completion of the analysis and without exposing the analysis cell to the analysis environment. For this reason, high safety can be ensured.

This application claims priority based on Japanese Patent Application No. 2017-011682 filed on January 25, 2017, the entire disclosure of which is incorporated herein.

DESCRIPTION OF SYMBOLS 10 Analysis cell 20 Analysis device 30 Analysis cell disposal container 101 Grip part 102 Analysis board 103 Reaction part 104 To-be-joined part 204,304 Coupling part 201 Accommodating chamber 205 Compression spring 301 Accommodating chamber 302 Opening part 303 Chuck part 305 Grasping part 306 Fixing part

Claims

A storage chamber, a coupling portion and a coupling release portion;
The containment chamber is
Having a storage space for the analysis cell;
Has an openable and closable opening,
The coupling portion is
It is a coupling part that can be coupled with the analysis cell,
The uncoupling part is
A release unit capable of releasing the coupling between the analysis cell and the analysis device;
while using it,
In the state where the opening of the storage chamber is opened, the analysis cell in a state inserted into the analysis device is stored inside the storage chamber,
Combined with the analysis cell by the combining unit,
Release the coupling between the analysis cell and the analysis device by the coupling release unit,
Pull out the analytical device from the containment chamber,
An analysis cell disposal container, wherein the opening of the storage chamber is closed in a state where the analysis cell is stored in the storage chamber.
The coupling portion also serves as the releasing portion;
The analysis cell waste container according to claim 1, wherein the analysis unit is connected to the analysis cell and the analysis cell and the analysis device are disconnected by the combination unit.
The analysis cell disposal container according to claim 1 or 2, wherein the storage chamber has a bag shape.
The analysis cell disposal container according to any one of claims 1 to 3, wherein the storage chamber is flexible.
The analysis cell waste container according to any one of claims 1 to 4, wherein the opening of the storage chamber has a chuck portion and can be opened and closed by the chuck portion.
The analysis cell waste container according to any one of claims 1 to 5, wherein the storage chamber has a grip portion at the other end of the opening.
The analysis cell disposal container according to claim 6, wherein the grip portion is a handle type.
Having an analyzed part, a first coupled part, and a second coupled part;
The first coupled portion is
A coupled portion that can be coupled to an analytical device;
The second coupled portion is
It is a coupled part that can be coupled with the analysis cell waste container,
At the start of analysis,
The first coupled portion is coupled to the analysis device,
After the analysis
The second coupled part is coupled to the coupling part of the analysis cell disposal container,
The disposal analysis cell according to claim 1, wherein the analysis cell disposal container is released from the connection release unit to release the connection with the analysis device in the first connected portion.
An analysis cell disposal kit comprising the analysis cell waste container according to any one of claims 1 to 7 and the analysis cell according to claim 8.
A coupling unit and an analysis unit;
The coupling part is a coupling part that can be coupled to the first coupled part of the analysis cell according to claim 8,
The analysis unit is an analysis unit that analyzes a portion to be analyzed of the analysis cell,
The analysis device characterized in that the connection with the analysis cell in the connection part can be released by the analysis cell disposal container or the dedicated release device according to any one of claims 1 to 7.