JP2002080028A - Paper container for liquid reagent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a container for a liquid extracorporeal diagnosis reagent, which is capable of being made to waste in a compact state, being safely incinerated for disposal, and having shelf stability for a liquid extracorporeal diagnosis reagent even in the case where it is an acidic reagent or an alkaline reagent, both containing a pigment, and which has an advantage that no pigment is adsorbed to the interior of the container. SOLUTION: The paper container 1 for a liquid reagent uses a paper layer as a base material and is formed by laminating multilayer films including a polyethylene layer laminated on the outer side of the paper layer, and a polyethylene layer, a polyester layer or a polyamide layer, and an aluminum layer, which are laminated on an inner side of the paper layer from the surface layer of the container toward the inner layer thereof, and having the functions of acid resistance, alkali resistance, and pigment adsorption proofness and/or gas barrier properties. Further, transparent film windows (peep windows) 5 comprising the plastic resin multilayer films except the paper base material and the aluminum layer are provided for checking the residual quantity of the reagent. Furthermore, a stopper 4 is provided at an upper part of the reagent container so as to be capable of easily taking the reagent out of the container and sealing it.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper-based liquid reagent paper container, and more particularly to a paper-based paper-containing liquid reagent such as an extracorporeal diagnostic reagent, which is resistant to acid, alkali, and dye. The present invention relates to a paper container having a function such as a property and / or a gas barrier property.

[0002]

2. Description of the Related Art Conventionally, there are many types of in-vitro diagnostic reagents used for test research on chemicals or clinical tests of body fluid components and the like, and their properties and characteristics are various. These reagents are usually liquid reagents, and there are various reagents ranging in pH from a strong acidity of about 1 to a strong alkalinity of about 14. In addition, among these reagents, there are reagents containing an adsorptive dye. Depending on these diversity,
Conventionally, a glass container such as a glass bottle or a plastic container has been used as a liquid reagent container.

[0003] Glass containers have high stability against reagents such as acidic, alkaline or corrosive, have excellent long-term storage properties of reagents, and have been used for many chemicals since ancient times. However, there are problems such as breakage of the glass due to the impact of dropping and the like, leakage of the container reagent, and heavy weight. In recent years, plastic containers made of polyvinyl chloride or the like have been used frequently. In the case of containers made of polyvinyl chloride, containers of other plastic materials such as polyethylene and polypropylene which do not generate dioxins have come to be used because dioxin may be generated during incineration.

[0004]

Although these glass and plastic reagent containers are excellent in storage of the above-mentioned extracorporeal diagnostic reagent, they have a problem in that the container after use of the reagent is discarded. In other words, an empty container after use is discarded without reducing its volume, resulting in an enormous amount of waste (gas). Since the reagent is a reagent, unlike foods, it cannot be recycled and cannot be landfilled. There is a problem that must be processed as.

[0005] Further, paper containers are often used as liquid containers in various fields such as foods and cosmetics in order to ensure the preservability of contents, and the suitability for distribution and handling. In these paper containers, the disposal of the container after the use of the reagent is compact, and it is possible to easily perform processing such as incineration. However, these paper containers are rarely used as containers for storing clinical diagnostic reagents. The reason is that, in addition to the fact that the reagent as the content is acidic or alkaline, it contains a coloring substance such as a dye, or contains an unstable enzyme. That is, in the conventional paper container, there is a problem in acid resistance or alkali resistance, and a liquid leak occurs as the reagent is stored for a long period of time, and a dye or the like is adsorbed on the inner surface of the container, and the reagent performance cannot be maintained. There was a problem.

[0006]

Therefore, in order to solve the above-mentioned problems, the present inventors have developed a paper container comprising a laminate having a paper layer as a base material.
The present inventors have found that a liquid reagent container which is simple and easy to dispose can be obtained by providing alkali resistance, dye adsorption preventing property or gas barrier property, and arrived at the present invention.

That is, the present invention relates to a container for containing a liquid extracorporeal diagnostic reagent, comprising a paper layer as a base material, a polyethylene layer on the outside of the paper layer, and acid resistance, alkali resistance and dye adsorption preventing properties on the inside. And / or a container in which a multilayer film having a gas barrier function is laminated.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION The liquid extracorporeal diagnostic reagent contained in the present invention includes various liquid reagents for measuring body fluid components, such as a protein measurement reagent, an albumin measurement reagent, and the like.
Inorganic phosphorus measurement reagent, uric acid measurement reagent, cholesterol measurement reagent, bilirubin measurement reagent, cholesterol measurement reagent,
A creatinine measurement reagent is exemplified. These reagents include enzymes or enzyme substrates,
Where necessary, 4-aminoantipyrine and anilines or phenols are reacted with a coloring agent, for example, hydrogen peroxide produced by an enzymatic reaction, to produce a colored dye.

The container of the present invention comprises a paper layer as a base material, a polyethylene layer on the outside of the paper layer, and a multilayer film having functions of acid resistance, alkali resistance, dye adsorption prevention and / or gas barrier properties on the inside. This is a self-standing container assembled with the laminated material.

The outside of the laminated material of the present invention is a polyethylene layer, for example, low-density polyethylene, linear low-density polyethylene, high-density polyethylene, or the like. The surface may be subjected to a surface treatment such as corona discharge to impart printability. The polyethylene layer also serves as a wax coat layer of the paper layer. A printing layer may be provided between the paper layer and the polyethylene layer.

In the laminated material of the present invention, the layer to be laminated is selected according to the purpose of the multilayer film provided inside the paper layer.
When filling with an acidic reagent, a multilayer film having a polyester resin, for example, a polyethylene phthalate resin as an intermediate layer is laminated on the inner surface side of the container of the paper substrate, and when filling with an alkaline reagent, the paper substrate is On the inner surface side of the container, a multilayer film having a polyamide-based resin, for example, polymethaxylylene adipamide resin or the like as an intermediate layer is laminated. In addition, in order to maintain gas barrier properties as necessary, an aluminum layer is laminated between the synthetic resin film and the paper base, and in order to avoid dye adsorption, a polyolefin-based A resin, for example, a polyethylene resin film layer. Examples of such a multilayer film include a multilayer film layer composed of a polyethylene layer / polyester layer / aluminum layer / special polyethylene layer, or a polyethylene layer / polyamide layer / aluminum layer / special polyethylene layer from the container surface layer to the inner layer. There is a multilayer film consisting of An adhesive layer, for example, a dry laminate is provided between the layers as necessary. The polyamide layer and the polyester layer are preferably biaxially stretched films. The special polyethylene layer is a layer that facilitates the lamination of the paper layer and the aluminum layer, and includes, for example, low-density polyethylene, and the like. In addition, ethylene-acrylic acid copolymer, ethylene-methacrylic acid copolymer And so on.

Further, the liquid reagent container of the present invention can maintain the light-shielding property by the paper base or the aluminum layer in the laminated material. It is preferable that a transparent film window composed of a polyethylene layer and a plastic resin multilayer film obtained by cutting off the paper base or the aluminum layer in the laminate is provided as a viewing window.

Further, the liquid reagent container of the present invention has an opening for filling the reagent, and the liquid reagent container is poured onto the upper portion of the reagent container so that the reagent can be easily taken out easily and sealed if necessary. Provide outlets and taps. The openings, spouts and stoppers may be those widely used in the field of liquid foods.

An example of the container of the present invention will be specifically described with reference to the drawings. 1, 2 and 3 are external views of the reagent container of the present invention. FIG. 1 shows a gable-top type container. In FIG. 1, 1 is a paper container, 2 is a body, 3 is a roof-type lid, 4 is a spout, and 5 is a viewing window. The spout may have a seal portion provided with a lid and a pull tab.

FIG. 2 and FIG. 3 show dedicated containers made according to the shape of the reagent storage in various automatic chemical analyzers. The paper container of the present invention is not limited to these shapes. In each case, a lid (plug) is provided at the upper end of the container to take out the reagent and reseal it. Also. The container body has a transparent or translucent film window so that the remaining amount of the reagent can be determined. The shape of the window is arbitrary such as a square or an ellipse.

FIGS. 4 to 6 are cross-sectional views of the laminate constituting the paper container body of the present invention. In FIG. 4, each layer of (outer layer) polyethylene / paper / special polyethylene / aluminum / dry laminate / polyethylene phthalate / dry laminate / polyethylene (inner layer) is laminated.
In FIG. 5, each layer of (outer layer) polyethylene / paper / special polyethylene / aluminum / dry laminate / polyamide / dry laminate / polyethylene (inner layer) is laminated. In addition, the window for checking the remaining amount of the reagent includes (outer layer) polyethylene / dry laminate / ethylene / vinyl alcohol copolymer / dry laminate / polyethylene terephthalate (inner layer) (FIG. 6) and (outer layer) polyethylene / polyethylene terephthalate. / Polyethylene (inner layer) or (outer layer) polyethylene / polyamide / polyethylene (inner layer). Further, it may have a wax coat layer (polyethylene layer) / print layer / cardboard layer / multilayer film layer in order from the outside to the inside. Dry lamination is the desired 2
Means the adhesive layer of the layer.

The thickness of each layer is appropriately determined according to the reagent to be contained.
Selected, but generally, the outermost polyethylene layer is about
10 to 30 μm, and the paper has a basis weight of about 100 to 500 g /
cm ^TwoIt is. The total thickness of the multilayer film layer is about 10
１００100 μm is preferred. Aluminum layer is about 5-30
μm and the polyamide or polyester layer is about
It is about 5 to 80 μm. These layers contain the contents
Is appropriately selected according to the conditions.

In order to laminate a multilayer film and paper constituting a paper container to form a laminate, a dry lamination method using an adhesive such as a urethane-based adhesive, an acrylic-based adhesive, or a polyester-based adhesive may be used. A conventionally known general method such as an extrusion lamination method may be used. In addition, it is preferable to further form a heat-sealable resin layer on one or both sides of the laminated material. Examples of the heat-sealable resin layer include an ethylene-vinyl acetate copolymer, polyethylene, polypropylene, low-density polyethylene, linear low-density polyethylene, and ionomer resin.

The container of the present invention is a gable-top type having a roof type, a brick pack type having a rectangular parallelepiped shape (block type) or a tetra pack type having a triangular pyramid shape.
The gable-top type container is preferably a gable-top carton composed of each layer of a wax coat layer (polyethylene layer) / print layer / cardboard layer / multilayer film layer from the outside to the inside. A spout is provided on the roof of the container. The spout preferably has a reclosable lid with a pull tab. The lid is a lid with a bull tab having a reclosing function by having a hinge portion. Further, the lid may include a lid base, a removable seal, and a reclosing cap for sealing an opening formed after removing the seal.

The container of the present invention preferably has a body held in a cylindrical shape, and preferably has a viewing window made of a transparent layer in a part of the body. Since the window portion is a laminated sheet having no laminated paper layer and a portion having a laminated structure of a transparent resin layer, a window through which the reagent can be visually observed can be formed in the container body. In the material for molding a container of the present invention, the notch in the outer layer (paper) is laminated with the inner layer (laminated film) so as to cover the notch, and the notch in the outer layer is formed on the surface of the paper of the outer layer. A polyolefin layer, specifically a polyethylene layer, is preferably formed so as to close and form an outer coating layer. The polyolefin layer is in intimate contact with the multilayer film layer. Therefore, the confidentiality in the cutout of the outer layer is completely maintained.

[0021]

Next, the container of the present invention will be described in detail with reference to examples. In these examples, liquid leakage from the container was visually observed, and separation of the laminated film was visually observed. The reagent performance was measured for each reagent by the following measurement method. Sodium hydroxide, hydrochloric acid and sulfuric acid were each adjusted to a concentration of 1 N, and the pH before and after storage was measured and compared. When the error was less than 0.2, there was no problem. When there was an error of 0.2 to 0.5, it was determined that the performance was slightly deteriorated. As for the protein measurement reagent, a measured value of protein was measured using a control serum as a sample, and the measured value was compared with a value measured using the reagent before storage. When the error was less than 2%, there was no problem, and when there was an error of 0.2 to 5%, it was judged that the performance was slightly deteriorated, and when it exceeded 5%, it was judged that the performance was clearly deteriorated. Albumin measuring reagent (trade name, Espa AB), inorganic phosphorus measuring reagent (trade name, Espa i
P), a uric acid measurement reagent (trade name, UA) and a bilirubin measurement reagent (trade name, ESPARA / TB) were similarly evaluated for performance. The reagents for measuring inorganic phosphorus and uric acid contain 4-aminoantipyrine as a color former.

Example 1 From the outer layer to the inner layer, (outer layer) polyethylene / paper /
Special polyethylene / aluminum / dry laminate /
A gable-top type reagent container made of a multilayer laminate in which polyethylene phthalate / polyethylene (inner layer) was laminated (see FIGS. 1 and 4). The container body was provided with a viewing window through which the remaining amount of the reagent could be visually observed. The containers were filled with various liquid reagents (described in Table 1) and left at room temperature for 2 months. It was visually confirmed that there was no liquid leakage or the like at the joint of the containers. In addition, the performance of each reagent was confirmed whether or not the reagent performance was maintained. As Comparative Example 1, (outer layer)
Polyethylene / paper / special polyethylene / aluminum /
Polyethylene (inner layer) was used. The results are shown in Tables 1 and 2.

Example 2 In the same manner as in Example 1, a reagent container comprising a multilayer film in which (outer layer) polyethylene / paper / special polyethylene / aluminum / dry laminate / polyamide / polyethylene (inner layer) was laminated was prepared. (See FIGS. 1 and 5). The container was filled with various liquid reagents (described in Table 1) and stored at room temperature for 2 months. It was visually checked for liquid leakage from the container. In addition, it was confirmed whether the reagent performance was maintained. As a comparative example, (outer layer) polyethylene / paper / special polyethylene / aluminum / polyethylene (inner layer) was used. The results are shown in Tables 1 and 2.

As is clear from Tables 1 and 2, a container containing a polyethylene terephthalate layer (Example 1)
No liquid leakage from the container and no separation of the laminated film were observed except for the strongly alkaline reagent (1N sodium hydroxide). In addition, the deterioration of the reagent performance due to the adsorption of the dye was not observed in the reagent containing the dye (inorganic phosphorus measuring reagent and uric acid measuring reagent). Further, as is clear from Tables 1 and 2, in the container containing the polyamide layer (Example 2), no liquid leakage was observed with the strongly acidic reagent (sulfuric acid), but the separation of the laminated film was partially observed. Was observed. There was no problem with other reagents. In addition, the deterioration of the reagent performance due to the adsorption of the dye was not observed in the reagent containing the dye.

[0025]

[Table 1] Results of liquid leakage and laminated film separation test ：: no problem △: no liquid leakage, but some separation of the laminated film is observed ×: liquid leakage

[0026]

[Table 2] Reagent performance retention test results ：: No problem △: Slight performance deterioration is observed ×: Clear performance deterioration is observed

[0027]

The liquid reagent container of the present invention can be discarded more compactly and safely incinerated than conventional plastic containers by using paper as a base material. Further, even if the liquid reagent is an acidic or alkaline reagent containing a dye, it can be stored and has the advantage that the dye is not adsorbed in the container.

[Brief description of the drawings]

FIG. 1 is an external view showing an example of a liquid reagent container of the present invention.

FIG. 2 is an external view showing another example of the liquid reagent container of the present invention.

FIG. 3 is an external view showing another example of the liquid reagent container of the present invention.

FIG. 4 is a sectional view showing a laminated material of the liquid reagent container of the present invention.

FIG. 5 is a sectional view showing a laminated material of the liquid reagent container of the present invention.

FIG. 6 is a sectional view showing a laminated material of a viewing window of the liquid reagent container of the present invention.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B65D 5/74 B65D 65/40 A 65/40 5/74 ACF term (Reference) 3E060 AA03 AA04 BC01 BC04 CF03 CF06 DA22 EA03 EA20 3E086 AD02 BA04 BA13 BA14 BA15 BB01 BB74 CA29

Claims (12)

[Claims] 1. A container for containing a liquid extracorporeal diagnostic reagent, comprising a paper layer as a base material, a polyethylene layer on the outside of the paper layer, and acid resistance, alkali resistance, dye adsorption prevention property and / or gas barrier property on the inside. A liquid reagent paper container, which is a container in which multilayer films having the functions described above are laminated. 2. The liquid reagent paper container according to claim 1, wherein the multilayer film is made of polyethylene / dry laminate / polyester / dry laminate / aluminum / special polyethylene from the container surface layer to the inner layer. 3. The liquid reagent paper container according to claim 1, wherein the multilayer film is made of polyethylene / dry laminate / polyamide / dry laminate / aluminum / special polyethylene from the container surface layer to the inner layer. 4. The liquid reagent paper container according to claim 1, wherein the shape is a roof type gable top type, a rectangular parallelepiped (block type) brick pack type, or a triangular pyramid shape tetra pack type. 5. The apparatus according to claim 1, further comprising a spout at an upper portion of the container,
The spout has a reclosable lid with a pull tab,
The liquid reagent paper container according to claim 1. 6. The liquid reagent paper container according to claim 5, wherein a lid is provided at the spout, and the lid is a lid with a pull tab having a reclosing function by having a hinge portion. 7. The lid according to claim 5, further comprising a lid base, a removable seal, and a reclosing cap for sealing an opening formed after removing the seal. A liquid reagent paper container as described in the above. 8. The liquid reagent paper container according to claim 1, wherein the container has a body held in a tubular shape, and a part of the body has a window made of a transparent layer. 9. The liquid reagent according to claim 8, wherein the window is a multilayer film composed of polyester / dry laminate / ethylene / vinyl alcohol copolymer / dry laminate / polyethylene from the container surface layer to the inner layer. Paper container. 10. A container for containing a liquid extracorporeal diagnostic reagent, comprising a paper layer as a base material, a polyethylene layer on the outside of the paper layer, and an inner layer from the container surface layer on the inside,
It is a cylindrical container in which a multilayer film layer composed of polyethylene / dry laminate / polyester / dry laminate / aluminum / special polyethylene or polyethylene / dry laminate / polyamide / dry laminate / aluminum / special polyethylene is laminated. A liquid reagent paper container having a spout and a window on the side of the cylindrical container for viewing the stored reagent. 11. The liquid extracorporeal diagnostic reagent is a protein measurement reagent, an albumin measurement reagent, an inorganic phosphorus measurement reagent, a uric acid measurement reagent, a cholesterol measurement reagent, a bilirubin measurement reagent, a cholesterol measurement reagent, or a creatinine measurement reagent. The container for a liquid reagent according to any one of claims 10 to 10. 12. The liquid reagent paper container according to claim 1, which is adapted to an automatic chemical analyzer.