JPH06324050A - Preservation of reagent - Google Patents

Abstract

PURPOSE:To prevent the change of properties and the condensation of a reagent by adding a substance into a container of the reagent which shuts the liquid surface of the reagent from the outside air. CONSTITUTION:At a production site of a reagent, a reagent 2a is filled in a reagent vessel 1a and a seal 6a resistive to medicines is tightly held in touch with the vessel 1a by means of a lid 5a, which is then packaged and preserved or brought in the market. At the using time, the lid of a vessel 1b is removed, so that a room 3b is opened to the air. In order to avoid this, a shutting agent 4a taken in a dispenser instrument 7g is added to the reagent 2b, so that the reagent is shut by a shutting agent 4c. Since the reagent 2b and room 3b are shut, the change of properties of the reagent 2b due to the oxygen and carbon dioxide in the air and the condensation of the reagent 2b as a result of the evaporation of moisture are solved. When the reagent is to be fed to an automatic analyzer, a reagent tube 8a connected to a dispenser device is inserted together with a weight into a reagent 2c. The reagent 2c is automatically consumed and consequently, the shutting agent 4c becomes lower. Nevertheless, the reagent 2c and a room 3c are still shut from the air. The property change and condensation of the reagent 2c are accordingly not given rise to.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a method for storing reagents and samples in chemical analysis. Furthermore, the present invention relates to a method for storing a liquid reagent for an automatic chemical analyzer used for clinical chemical analysis.

[0002]

2. Description of the Related Art Conventionally, a liquid reagent produced is filled in a container made of plastic or glass having an appropriate shape and volume according to its purpose of use, and is capped and packaged before it is delivered to the user. . Reagents for automatic analyzers are usually aqueous solutions, but it is common for the contents to contain preservatives, stabilizers, etc. in addition to the desired chemical reactants, and for transportation and storage. Are protected from light and refrigerated if necessary. In actual use, the reagent is placed in the reagent container of the automatic analyzer as it is or in a separate reagent container. Remove the lid,
From here, the reagent is automatically consumed by inserting a tube connected to the reagent dispensing device of the automatic analyzer into the reagent. Here, when filling the reagent container at the time of manufacturing the reagent, the substance (blocking agent) forming the upper layer of the reagent is not added. In addition, when using a reagent, it is not used even after the lid is opened or after the lid is removed and a blocking agent is added to the reagent to use the reagent.

[0003]

[Problems to be Solved by the Invention] The reagent may be altered or concentrated during storage and use after production.
That is, oxidation by oxygen in the air, pH change due to dissolution of carbon dioxide in the air, concentration by evaporation of water during use with the lid open, and a breathable plastic material used. Concentration by evaporation of water in the case of a reagent container that has been evaporated, and the substance vaporized from one reagent dissolved and mixed into the other reagent in the reagent rack of the automatic analyzer installed with many reagents open. Deterioration, etc. The purpose of the present invention is to eliminate these alterations and enrichments.

[0004]

In order to eliminate the above-mentioned deterioration and concentration, a state in which the reagent and the atmosphere are blocked both during storage and during use is created. That is, the object is achieved by using a reagent container having no air permeability and adding a blocking agent between the opening of the reagent container and the surface of the reagent.

[0005]

First, the reagent container which is one of the constituent elements for achieving the present invention will be described. A reagent container generally consists of a container and a lid. The lid is composed of a lid body and a seal. Various types of glass are known as the material for forming a container having a non-breathable structure. Further, polypropylene resin, fluororesin, etc. are also publicly known in consideration of the chemical composition of the contents. The purpose of the lid is to integrate the container body with a screw structure to protect the seal by closely adhering the seal to the opening of the container, and the material does not matter because it does not directly contact the reagent. Various materials are used for the seal depending on the chemical composition of the contents. That is, it is known that thick paper is coated with plastic or paper and aluminum foil are laminated. It is plastic or aluminum foil that contacts the contents.

Next, the blocker which is the second component for achieving the present invention will be described. The blocking agent is added to the container after the reagent has been injected into the container and before the lid is closed, to form the upper layer of the reagent. Alternatively, after removing the lid, the reagent is added before use to form an upper layer of the reagent and shield the atmosphere from the reagent. The problem in using the blocking agent is the material and the amount used, that is, the layer thickness. The material may be liquid, solid, or gas, and in any case, 1) has a smaller specific gravity than an aqueous solution reagent, 2) does not vaporize, or does not vaporize or diffuse to lose the blocking effect during the period of use of the reagent 3) It is required to have properties such as being insoluble in water, 4) not affecting the chemical composition and reactivity of the reagent contents. For use in an automatic analyzer, in order to detect the liquid level of the reagent by electrical conductivity when the tip of the reagent suction / discharge nozzle of the reagent dispensing device penetrates the blocking agent and is inserted into the reagent. The blocking agent must have a sufficiently low electric conductivity as compared with the aqueous reagent. Considering the above properties, the blocking agent is used without being limited to a specific chemical substance depending on the chemical composition of the content. An example of the blocking agent that is liquid at room temperature is Freon 113 under the trade name. That is, since the above properties are satisfied, the object of the present invention can be achieved. Examples of the blocking agent which is solid at room temperature include a material which is made of a material which is lighter than water by processing polytetrafluoroethylene resin or the like into hollow fine particles of 1 mm or less. That is, since the above properties are satisfied, the object of the present invention can be achieved. An example of the gas blocking agent at room temperature is Freon 114 under the trade name. That is, since the above properties are satisfied, the object of the present invention can be achieved.

The amount of the blocking agent used is not specified because the required amount varies depending on the cross-sectional area of the reagent container even if the layer thickness is the same. In the case of layer thickness, it differs when used in transit and in the stationary state. This is because during transport, a sufficient thickness is required to prevent the liquid surface of the reagent from coming into contact with air when shaken. Generally, in the case of a liquid, the thickness of the layer may be the smallest, and in the above case, the purpose can be achieved with 1 to 5 mm. 2 to 10 for gas and solid
mm is recommended.

[0008]

Embodiment An embodiment of the present invention will be described with reference to FIG. Figure 1 is a schematic diagram of adding a blocking agent to a reagent and using it. Removing the lid of a conventional storage type reagent (left) and adding a blocking agent to block the reagent and the atmosphere (middle) automatic analyzer It shows that the reagent tube of is used by inserting (right). In the figure, 1 is a reagent container, 1a is a storage state, 1b is a blocker addition state, and 1c is a use state in an automatic analyzer. Reference numeral 2 is a reagent, and 2a, 2b and 2c are in a state according to 1a, 1b and 1c, respectively. 3 is a space in the container, and 3a, 3b and 3c are 1a, 1b and 1 respectively.
This is a state according to c. Reference numeral 4 is a blocking agent, and 4a is a blocking agent before being added to the reagent 2b and is contained in the dispensing device 7a. Reference numerals 4b and 4c denote blocking agents, which are added to the reagents 2b and 2c, respectively. Reference numeral 5a is a lid of the reagent container 1, and 6a is a seal. 8a is a reagent tube connected to an automatic analyzer (not shown), and 9a is a weight.

At the reagent manufacturing plant, the reagent 2 is placed in the reagent container 1a.
After being filled with a, the chemical-resistant seal 6a is packed and stored or sold by a conventional storage method in which the reagent container 1a is closely attached to the reagent container 1a with the lid 5a. Here, the influence of oxygen, carbon dioxide, etc. existing in the air in the space 3a of the reagent container 1a is allowed as being small. Before use Reagent container 1b
The lid is removed and the space 3b is open to the atmosphere. Since the automatic analyzer is often used in this state, when the oxygen and carbon dioxide in the space 3b are dissolved in the water of the reagent 2b or react with the chemical components in the reagent, the oxygen and carbon dioxide are supplied from the atmosphere and deteriorated by the reaction. Grows larger. Further, the reagent 2b is concentrated by evaporating the water in the reagent 2b into the atmosphere. In order to prevent this, the blocking agent 4 stored in a container (not shown)
A is taken in the dispensing device 7a and added to the reagent 2b to make the blocking agent 4c. As a result, the reagent 2b and the space 3b are cut off, so that the concentration of the reagent 2b due to the deterioration due to oxygen and carbon dioxide in the air and the evaporation of water is eliminated. In order to use the automatic analyzer, a reagent tube 8a connected to a sorting device of the automatic analyzer (not shown) is inserted into the reagent 2c together with a weight 9a. Although the reagent 2c is automatically consumed and the blocking agent 4c descends along with this, the blocking of the reagent 2c and the space 3c is maintained, so that the alteration and concentration of the reagent 2c do not occur and the object of the present invention can be achieved.

Next, another embodiment of the present invention will be described with reference to FIG. FIG. 2 is a schematic diagram in which a blocking agent is added to a reagent in advance and then stored, and the blocking agent is added when the reagent is manufactured (left). Then, it is covered and stored or transported (middle). In use, the lid is removed and the reagent tube of the automatic analyzer is inserted (right).
In the figure, 1 is a reagent container, 1d is a state in which a blocking agent is added at the time of production, 1e is a storage state, and 1f is a use state in an automatic analyzer. 2 is a reagent, 2d,
2e and 2f are states according to 1d, 1e, and 1f, respectively. 3 is a space in the container, and 3d, 3e and 3f are in a state according to 1d, 1e and 1f, respectively. Reference numeral 4 is a blocking agent, and 4d is a blocking agent before addition to the reagent 2d, which is contained in the dispensing device 7b. 4e, 4f, 4g
The blocking agents of Nos. 1 and 2 show the state of being added to the reagents 2d, 2e and 2f, respectively. 5b is a lid of the reagent container 1, and 6b
Is a seal. 8b is a reagent tube connected to an automatic analyzer (not shown), and 9b is a weight.

At the reagent manufacturer, the reagent 2 is placed in the reagent container 1d.
After filling d, the blocking agent 4d stored in a container (not shown) is further collected in the dispensing device 7b and added to the reagent 2d. For storage, the seal 6b is pressed against the lid 5b to be in close contact. Here, since the reagent 2e is blocked from the space 3e by the blocking agent 4f, it is unlikely to come into contact with the seal 6b. Therefore, the cost of the seal can be reduced without the need for chemical resistance. Further, it is possible to prevent alteration of the reagent 2e due to oxygen or carbon dioxide in the space 3e. In order to use the automatic analyzer, the lid is removed and the reagent tube 8b connected to the sorting device (not shown) of the automatic analyzer is inserted into the reagent 2f together with the weight 9b. At this time, the space 3f is open to the atmosphere, but the reagent 2f and the space 3f are blocked by the blocking agent 4g, so that the reagent is altered by oxygen or carbon dioxide in the atmosphere and the water content of the reagent 2f evaporates into the atmosphere. 2f concentration does not occur. Reagent 2
Although f is automatically consumed and the blocking agent 4g descends accordingly, the blocking of the reagent 2f and the space 3f is maintained, so that the alteration and concentration of the reagent 2f do not occur and the object of the present invention can be achieved.

Still another embodiment of the present invention will be described with reference to FIG. Fig. 1 is a schematic diagram of adding a blocking agent to a sample and storing and using it. The storage state where the blocking agent is added to the sample (left) and the state where the sample is installed in an automatic analyzer (right) ) Is shown. In the figure, 10a and 10b are sample containers, respectively, showing a storage state and a use state. 11a and 11b are samples, and each has 10
This is a state according to a, 10b. 12a and 12b are blocking agents, which are in a state according to 10a and 10b, respectively. Reference numerals 13a and 13b are spaces in the sample container, which are in a state according to 10a and 10b, respectively. Reference numeral 14 denotes a cover, which prevents the space 13a from being exposed to the atmosphere.
Used to cover the top opening of 0a. Reference numeral 15 is a sample nozzle, which is a part of a sample sorting device of an automatic analyzer (not shown). Reference numeral 16 is a liquid level sensor, which is a part of a sample collecting device of an automatic analyzer (not shown), but is integrated with the sample nozzle 15 and the sample nozzle 15 descends to drop the sample 11
It is used to know that the sample nozzle 15 has reached the sample 11b due to the flow of electricity between the sample nozzle 15 and the liquid level sensor 16 via the conductive sample 11b when it is inserted into the sample b.

To store the sample 11a, the sample 11a is injected into the sample container 10a by a device (not shown), and then the blocking agent 12a is added. After that, the cover 14 covers the opening of the sample container 10a, and then the sample container 10a is stored at room temperature or in a refrigerator or a freezer. Here, when storing, the sample must not be altered or concentrated. By using the blocking agent 12a, the influence of oxygen, carbon dioxide, etc. in the air in the space 13a can be eliminated. Further, although a plastic film is often used as the cover 14 in many cases, the space 13a may not be adhered to the opening of the sample container 10a or may be torn to open the space 13a to the atmosphere. In this case, the object of the present invention can be achieved by blocking the atmosphere integrated with the sample 12a and the space 13a with the blocking agent 12a. When the sample is subjected to analysis, the cover 14 is removed and then the sample container 10b is installed in the automatic analyzer. Sample nozzle 15
When the liquid level sensor 16 integrated therewith is lowered, the sensor 16 does not operate in the blocking agent 12b because the electrical conductivity is small, and when the liquid level sensor 16 reaches the sample 11b, the operation is stopped. Thereafter, the sample 11b is sampled by a sample dispenser (not shown) and used for analysis.

[0014]

According to the present invention, the air in the space between the reagent and the reagent container is shut off during transportation or storage of the aqueous solution for automatic analysis. You can prevent change. Further, according to the present invention, the air in the reagent and the space inside the reagent container is shut off during transportation or storage of the aqueous solution for automatic analysis, so that the lid of the reagent container and a special sealing material are not required, and simple encapsulation You can often save money. Further, according to the present invention, when the automatic analysis aqueous solution reagent is used with the lid of the reagent container opened, the reagent and the atmosphere are shielded from each other, so that oxidation by oxygen in the air and p by carbon dioxide are caused.
The change of H can be prevented. Further, it is possible to prevent concentration of the reagent due to evaporation of water into the atmosphere. When the blocking agent according to the present invention is added so as to form the upper layer of the sample in the sample container for the storage of the sample, the concentration of the sample and the influence of oxygen and carbon dioxide in the air on the sample can be prevented.

[Brief description of drawings]

FIG. 1 is a schematic diagram in which a blocking agent is added to a reagent for use.

FIG. 2 is a schematic diagram of adding a blocking agent and then storing and using it.

FIG. 3 is a schematic diagram in which a blocking agent is added to a sample.

[Explanation of symbols]

1a, 1b, 1c, 1d, 1e, 1f ... Reagent container, 2
a, 2b, 2c, 2d, 2e, 2f ... Reagents 3a, 3
b, 3c, 3d, 3e, 3f ... Space, 4a, 4b, 4
c, 4d, 4e, 4f, 4g ... Blocking agent, 5a, 5b ...
Lid, 6a, 6b ... Seal, 7a, 7b ... Dispensing instrument, 8
a, 8b ... Reagent tube, 9a, 9b ... Weight, 10a, 1
0b ... sample container, 11a, 11b ... sample, 12a, 12
b ... blocker, 13a, 13b ... space, 14 ... cover, 1
5 ... sample nozzle, 16 ... liquid level sensor.

Claims (7)

[Claims] 1. A reagent for chemical analysis, characterized in that a substance for blocking the liquid surface of the reagent from the outside air is added to the reagent container during the whole or partial process from manufacture to use. Preservation method. 2. The method for storing a reagent according to claim 1, wherein the reagent is a liquid. 3. The reagent storage method according to claim 1, wherein the substance forming the upper layer of the reagent is a liquid. 4. The method for storing a reagent according to claim 1, wherein the substance forming the upper layer of the reagent is a gas. 5. A method for storing a reagent, wherein the substance according to claim 1 is used as a substance blocking air from air when a sample is stored at room temperature or low temperature. 6. The method of storing a reagent according to claim 1, wherein the lid of the reagent container is not used. 7. A reagent container characterized in that the material or structure of the reagent container according to claim 1 has a property of not being breathable, and has a structure in which it is shielded from air when the substance is added.