JP6793396B2 - Method for producing allergy-suppressing composition - Google Patents

Description

The present invention relates to a method for producing an allergic suppression composition for suppressing an allergic reaction caused by inhalation of an allergen such as pollen, for example.

For example, in the case of a hay fever patient, an allergic reaction may occur by inhaling a predetermined amount or more of pollen. It is also known that dead mites and feces can cause allergic reactions.

For example, Patent Document 1 discloses an anti-allergen composition containing an aluminum salt and a water-soluble polymer for imparting water resistance, and the anti-allergen composition is sprayed onto a textile product or the like. I try to use it to spray.

Further, Patent Document 2 discloses an allergen neutralizing composition, in which a film-forming polymer such as polyacrylic acid contained in the allergen neutralizing composition is sprayed on a cloth to immobilize dust particles containing the allergen. I try to do it.

Japanese Unexamined Patent Publication No. 2008-94906 Special Table 2004-510841

By the way, in recent years, an increasing number of people are suffering from the so-called morning attack, in which they suddenly sneeze continuously when they wake up in the morning, their nose is clogged, and their runny nose does not stop. The cause is not clear, but it is thought that it is probably due to the allergens mentioned above. For example, various allergens attached to the bedding at bedtime soared from the bedding as the person woke up and soared. There is a possibility that humans have inhaled the bedding and the symptoms of morning attack have developed.

Therefore, for example, it is conceivable to spray the anti-allergen composition or the allergen neutralizing composition as disclosed in Patent Documents 1 and 2 on the bedding. In Patent Document 1, it is considered that the allergen can be aggregated by using an aggregating agent such as polyacrylate, but such an aggregating agent has a strong cohesive force and therefore can be put into a container before use. In this state, the coagulants aggregate (self-aggregate) and easily precipitate, which causes a problem that it is difficult to put them into practical use as a product.

In particular, in the case of a product for general consumers, it is necessary to keep the flocculant in the container for a long period of time without causing precipitation due to self-aggregation, and even if the temperature changes, it is self-aggregating. It is necessary to prevent aggregation from occurring.

Further, even if the allergen can be aggregated with an aggregating agent, an allergic reaction is likely to occur if the allergen is in an active state, so it is necessary to sufficiently enhance the inactivating effect of the allergen together with the aggregation.

The present invention has been made in view of the above points, and an object of the present invention is to obtain an allergen inactivating effect and an aggregating effect sufficiently by using an allergen inactivating agent and an aggregating agent, and to obtain a aggregating agent before use. It is an object of the present invention to provide a production method capable of suppressing self-aggregation of a substance and maintaining a stable state for a long period of time.

In order to achieve the above object, in the present invention, an inorganic salt having a protein converging effect is used as an allergen inactivating agent, and a polyacrylate is used as a flocculant, and these are dispersed or dissolved in water. did.

The first invention is a method for producing an allergy-suppressing composition containing a polyacrylate and an inorganic salt having a protein converging effect, wherein the polyacrylate dispersion liquid in which the polyacrylate is dispersed in water is used. It is provided with a step of producing a polyacrylate dispersion liquid to be obtained and a step of dissolving an inorganic salt in which an inorganic salt having a protein converging effect is dissolved in the polyacrylate dispersion liquid produced in the above-mentioned polyacrylate dispersion liquid generation step. It is a feature.

According to this configuration, when the allergy-suppressing composition is sprayed on a cloth material or the like to which the allergen is attached, inorganic salts having a protein astringent effect are attached to the allergen. As described above, the main allergens are pollen, mite carcasses, feces, etc. Since these are proteins, the allergens are inactivated by the adhesion of inorganic salts having a protein astringent effect to the allergens. Since the polyacrylate is contained, the allergen aggregates due to the aggregation effect of the polyacrylate to form large particles. This makes it difficult for allergens to soar. Even if all allergens are not inactivated, the flocculant makes it difficult for the allergens to fly up, thus reducing the amount of allergens that humans inhale. From the above, the allergic reaction is suppressed. In particular, by spraying the allergy-suppressing composition on the bedding, it becomes possible to suppress the symptoms of morning attack.

In addition, at the time of production, after the polyacrylate was dispersed in water, the inorganic salts having a protein converging effect were dissolved, so that the polyacrylate was less likely to self-aggregate during the production, and after the production, Self-aggregation of polyacrylate is suppressed even before use by the user. As a result, a stable state is maintained for a long period of time.

The second invention is characterized in that, in the first invention, an organic solvent is added to the polyacrylate dispersion liquid.

If polyacrylate is added directly to an organic solvent, the polyacrylate may self-aggregate. However, by adding the organic solvent to a dispersion in which polyacrylate is pre-dispersed in water, polyacrylate can be used. Self-aggregation of salts is suppressed.

A third invention comprises, in the first or second invention, an antibacterial agent solution generation step of obtaining an antibacterial agent solution in which an antibacterial agent is dissolved in an organic solvent, and the antibacterial agent solution produced in the antibacterial agent solution generation step is used. , The feature is that it is added to the polyacrylate dispersion produced in the above-mentioned polyacrylate dispersion formation step.

According to this configuration, the antibacterial agent can be added to and dissolved in the polyacrylate dispersion.

The fourth invention is characterized in that, in any one of the first to third inventions, the content of the inorganic salt having a protein astringent effect is set to be larger than the content of the polyacrylate.

According to the first invention, after obtaining a dispersion in which polyacrylate is dispersed in water, inorganic salts having a protein agglutinating effect are dissolved in this dispersion, so that the allergen deactivating effect and An allergy-suppressing composition capable of sufficiently obtaining an agglutination effect can be produced without self-aggregation during production, and can be maintained in a stable state for a long period of time.

According to the second invention, by adding an organic solvent to a dispersion liquid in which polyacrylate is dispersed in water, self-aggregation of polyacrylate can be suppressed during production.

According to the third invention, by adding the antibacterial agent solution to the polyacrylate dispersion, an allergy-suppressing composition in which the antibacterial agent is dissolved can be obtained.

According to the fourth invention, self-aggregation before use can be suppressed while further enhancing the deactivating effect of the allergen.

Hereinafter, embodiments of the present invention will be described in detail. It should be noted that the following description of the preferred embodiment is essentially merely an example and is not intended to limit the present invention, its application or its use.

The allergy-suppressing composition according to the embodiment of the present invention contains a flocculant that aggregates allergens, an inactivating agent that inactivates allergens, an organic solvent, an antibacterial agent, a deodorant, a fragrance, and water. Contains. The allergen-suppressing composition inactivates pollen, mite carcasses, feces, etc. as allergens with an inactivating agent, and at the same time, agglomerates a plurality of allergens with an aggregating agent to form large particles and make it difficult to fly up, thereby causing allergies. It is for suppressing. This allergy-suppressing composition can be contained in a container equipped with, for example, a sprayer to obtain an allergy-suppressing product. As the atomizer, for example, a well-known atomizer having a built-in pump mechanism that the user pushes with a finger or the like can be used. Further, the allergy-suppressing composition can be contained in an aerosol container together with a propellant to obtain an aerosol product. As the propellant in this case, various gases and the like can be used. In addition, the allergy-suppressing composition can be used by being contained in a container such as a spray bottle.

The allergy-suppressing composition is preferably used by spraying it indoors, and can be used, for example, by adhering it to bedding (including comforters, mattresses, pillows, etc.), sofas, curtains, carpets, tatami mats, and the like.

The flocculant is a polyacrylate, and examples thereof include sodium polyacrylate. The sodium polyacrylate is either non-crosslinked sodium polyacrylate (for example, Alonbis SX, Alonbis MX, etc. manufactured by Toa Synthetic Co., Ltd.) or crosslinked sodium polyacrylate (for example, Leosic 260H, manufactured by Toa Synthetic Co., Ltd.). However, these may be mixed and used, but non-crosslinked sodium polyacrylate is preferable in terms of the effect of aggregating allergens.

The content of polyacrylate is set to 0.0001% by weight or more and 0.005% by weight or less. If the content of polyacrylate is less than 0.0001% by weight, the aggregation effect of allergens is significantly reduced. Therefore, the lower limit of the content of polyacrylate should be 0.0001% by weight or more. It is preferable, more preferably 0.0005% by weight or more.
On the other hand, when the content of polyacrylate exceeds 0.005% by weight, self-aggregation of polyacrylate is likely to proceed during production and after production until use by the user, and is in a stable state. The upper limit of the content of polyacrylate is preferably 0.005% by weight or less, and more preferably 0.003% by weight or less.

The deactivator is an inorganic salt having a protein astringent effect, and examples thereof include aluminum chloride and alum. Aluminum chloride and alum are stable when used as an allergy-suppressing composition. The protein astringent effect is an effect capable of astringent (denaturing) the pollen, dead mites, feces and the like until they are inactivated. Aluminum chloride is preferable not only because it has a high protein astringent effect, but also because it is less irritating when it adheres to human skin and does not become colored when it adheres to a cloth material or the like.

The content of the inorganic salt having a protein astringent effect can be set to, for example, 0.2% by weight or more and 20% by weight or less. If the lower limit of the content of the inorganic salt having a protein astringent effect is less than 0.2% by weight, the deactivating effect is significantly reduced, so 0.2% by weight or more is preferable. The deactivating effect increases as the content of the inorganic salt having a protein astringent effect increases, but if it exceeds 20% by weight, the deactivating effect hardly changes even if the content exceeds 20% by weight. The upper limit of the salt content is preferably 20% by weight or less. The content of aluminum chloride is set higher than the content of polyacrylate.

The organic solvent is, for example, alcohol, but the organic solvent is not limited to this, and various organic solvents can be arbitrarily blended according to the purpose. The purpose of blending the organic solvent may be, for example, to improve the quick-drying property of the allergy-suppressing composition to improve the usability. In this case, the organic solvent is not particularly limited as long as it evaporates more easily than water. Lower alcohols can be used, and ethanol is particularly preferable from the viewpoint of safety. As the ethanol, for example, fermented alcohol (95 degrees 1st grade) or the like can be used, but synthetic alcohol or the like may also be used.

As the antibacterial agent, for example, phenoxyethanol, paraoxybenzoic acid ester, sodium benzoate, benzoic acid, benzalkonium chloride and the like can be used. The content of the antibacterial agent is set to be higher than the content of polyacrylate and lower than the content of inorganic salts having a protein astringent effect. Specifically, the content of the antibacterial agent is preferably 0.3% by weight or more and 0.8% by weight or less.

Deodorants include, for example, Epolion AS-144 (manufactured by Kyoritsu Seiyaku Co., Ltd.), Fresh E (manufactured by Shiraimatsu Shinyaku Co., Ltd.), Pancil FG-60, FG-70 (all manufactured by Release Kagaku Kogyo Co., Ltd.), Super Purriere. A100-R, Super Purière A-20TEB, Super Purière Z-100 (all manufactured by Panasonic Eco Solutions Kaken Co., Ltd.), etc. can be used. The content of the deodorant is set to be higher than the content of polyacrylate and lower than the content of inorganic salts having a protein astringent effect. Specifically, the content of the antibacterial agent is preferably 0.05% by weight or more and 0.5% by weight or less.

As the fragrance, various natural essential oils, synthetic fragrances and the like can be used. Normal water can be used as the water. The water content is the balance of flocculants, deactivators, alcohols, antibacterial agents, deodorants and fragrances. It is not necessary to contain any one or more of alcohol, antibacterial agent, deodorant and fragrance. Further, other additives may be added as long as the effects of the flocculant and the deactivator are not reduced.

By the way, in the process leading to the present invention, the inventors of the present application have found that polyacrylic acid salt has a superior effect of aggregating allergens as compared with ordinary (non-salt) polyacrylic acid. It is thought that this is because salts are more easily ionized than ordinary polyacrylic acid, and therefore it is easier to capture fine charged particles (allergens, etc.).

Therefore, the inventors of the present application have come up with the idea of blending an inorganic salt as a deactivator with polyacrylate as a coagulant through repeated diligent studies. However, when we actually tried this, we faced the problem that polyacrylates self-aggregate and precipitate very easily. This is probably due to the fact that the polyacrylate ions ionized in water combine with the ions of the above-mentioned inorganic salts that are also ionized in water.

Therefore, as a result of diligent research, the inventors of the present application have found that self-aggregation of polyacrylate does not occur and precipitation does not occur according to the following production method, and have completed the present invention.

(Manufacturing method of allergy suppressing composition)
Next, a method for producing the allergy-suppressing composition will be described. The method for producing the allergy-suppressing composition is a step of producing a polyacrylate dispersion liquid in which a polyacrylate dispersion is dispersed in water, and an antibacterial agent solution in which an antibacterial agent is dissolved in alcohol. Inorganic salt dissolution step (chloride) in which inorganic salts having a protein converging effect (aluminum chloride in this embodiment) are dissolved in the polyacrylate dispersion produced in the antibacterial agent solution generation step and the polyacrylate dispersion generation step. It has an aluminum melting process).

In the polyacrylate dispersion liquid generation step, the polyacrylate is dispersed in water by adding the polyacrylate to water and stirring the mixture. At this time, the mixture is stirred in the absence of alcohol. As a result, self-aggregation of polyacrylate is suppressed. Further, in the step of producing a polyacrylate dispersion liquid, it is preferable to use a small tank to disperse the polyacrylate in water.

In the antibacterial agent solution generation step, phenoxyethanol is added to the alcohol and stirred, and the phenoxyethanol is dissolved in the alcohol to obtain an antibacterial agent solution. In this antibacterial agent solution generation step, the deodorant and the fragrance may be added to the alcohol and stirred to dissolve the deodorant and the fragrance in the alcohol. As a result, a solution in which phenoxyethanol, a deodorant and a fragrance are dissolved is obtained.

In the inorganic salt dissolution step, aluminum chloride is added to water and stirred, and the aluminum chloride is dissolved in water to obtain an aluminum chloride solution.

The polyacrylate dispersion liquid production step, the antibacterial agent solution generation step, and the aluminum chloride dissolution step are performed using separate tanks. These three steps may be performed at different timings or may be performed in parallel.

Then, the polyacrylate dispersion produced in the polyacrylate dispersion generation step is transferred to a large tank, water is added to the tank, and the process of stirring is performed a plurality of times in the polyacrylate dispersion. We will increase the proportion of water.

Then, the polyacrylate dispersion is transferred to a larger tank, water is added, and then the aluminum chloride solution produced in the aluminum chloride dissolution step is put into the tank and stirred. Next, water is added and stirred, and then alcohol is added and stirred. That is, since alcohol is added to the polyacrylate dispersion liquid in which the polyacrylate is dispersed, self-aggregation of the polyacrylate is suppressed.

After that, a solution in which phenoxyethanol, a deodorant and a fragrance are dissolved in alcohol is added and stirred, and then alcohol is added and stirred. Finally, water is added and stirred to obtain an allergy-suppressing composition.

Here, if the polyacrylate is directly added to the aluminum chloride solution, the polyacrylate will self-aggregate and precipitate. This is probably due to the fact that aluminum ions are present in the water from the beginning, which makes it easier for polyacrylate ions to bind to them. Further, if the polyacrylate is added directly to the alcohol, the polyacrylate cannot be swelled with water and cannot be dispersed, and self-aggregates and precipitates. Therefore, as described above, by dispersing the polyacrylate in water and then adding aluminum chloride and alcohol, it is possible to prevent the polyacrylate from self-aggregating and precipitating.

As described above, after the polyacrylate is dispersed in water, the inorganic salts having a protein converging effect are dissolved, so that the polyacrylate is less likely to self-aggregate during the production, and after the production, Self-aggregation of polyacrylate is suppressed even before use by the user. As a result, a stable state is maintained for a long period of time.

(How to use the allergy suppression composition)
The allergy-suppressing composition is stored in a container equipped with a sprayer, an aerosol container, or the like, and is sprayed on, for example, bedding before going to bed. As a result, the inorganic salts having a protein astringent effect contained in the allergy-suppressing composition adhere to the allergen. The main allergens are pollen, dead mites, feces, etc. Since these are proteins, the allergens are inactivated by the adhesion of inorganic salts having a protein converging effect to the allergens.

Since the allergy-suppressing composition contains polyacrylate, allergens aggregate due to the aggregation effect of polyacrylate to form large particles. This makes it difficult for allergens to soar. Even if all allergens are not inactivated, the flocculant makes it difficult for the allergens to fly up, thus reducing the amount of allergens that humans inhale. From the above, the allergic reaction is suppressed. In particular, spraying the allergy-suppressing composition on the bedding makes it possible to suppress the symptoms of morning attack, so that the allergy-suppressing composition of the present embodiment is useful as a composition for suppressing morning attack symptoms. ..

(Effect of embodiment)
Next, the effect of suppressing the soaring of allergens will be described based on the test results. In the test method, first, a comforter is laid on the mattress, and small particles that easily fly up as pseudo pollen are sprayed on the comforter. A case where no treatment was performed was used as a comparative example (blank), and a case where the allergy-suppressing composition was sprayed on the comforter was used as an example. In each of the comparative example and the embodiment, a weight of a predetermined weight was dropped from above the comforter onto the comforter, and the particles that soared were collected by a dust collector, and the number of collected particles was counted using a particle counter. Dust collectors and particle counters have been well known in the past. As a result, when the number of collected particles was compared between the example and the comparative example, assuming that the number of collected particles in the comparative example was 100, the number of collected particles in the case of the example was 17. That is, it can be seen that the allergen-suppressing composition according to the present embodiment has an extremely high effect of suppressing the soaring of allergens.

Next, the inactivating effect of the allergen will be described based on the test results. The test was conducted using a method for quantifying trace amounts of biological substances using an antigen-antibody reaction. That is, an ELISA kit manufactured by Nichinichi Pharmaceutical Co., Ltd. is prepared, the cryj1 standard solution included in the ELISA kit is diluted with the buffer solution also included in the kit, and 100 μL is dispensed into the wells. 120 μL of the allergy-suppressing composition and 120 μL of the standard antigen solution (2.5 g / mL) are dispensed into an Eppen tube, and after vortexing, the mixture is allowed to stand for 30 minutes, and 100 μL is dispensed into a well.

As a result, it was found that the deactivating effect of the pollen allergen of the allergy-suppressing composition according to the present embodiment was improved by 90% as compared with the blank.

Therefore, by obtaining a dispersion in which polyacrylate is dispersed in water and then dissolving inorganic salts having a protein converging effect in this dispersion, it is possible to sufficiently obtain an allergen inactivating effect and an agglutination effect. The allergen-suppressing composition that can be produced can be produced without self-aggregation during production, and can be maintained in a stable state for a long period of time.

The above embodiments are merely exemplary in all respects and should not be construed in a limited way. Furthermore, all modifications and modifications that fall within the equivalent scope of the claims are within the scope of the present invention.

As described above, the present invention can be used for, for example, bedding before going to bed.

Claims (4)

With polyacrylic acid salt
In a method for producing an allergy-suppressing composition containing an inorganic salt having a protein astringent effect,
A step of producing a polyacrylate dispersion liquid in which the above polyacrylate dispersion is dispersed in water, and a step of producing a polyacrylate dispersion liquid.
A method for producing an allergy-suppressing composition, which comprises a step of dissolving an inorganic salt having a protein converging effect in the polyacrylate dispersion produced in the above-mentioned step of producing a polyacrylate dispersion. In the method for producing an allergy-suppressing composition according to claim 1.
A method for producing an allergy-suppressing composition, which comprises adding an organic solvent to the polyacrylate dispersion. In the method for producing an allergy-suppressing composition according to claim 1 or 2.
It is provided with an antibacterial agent solution generation step of obtaining an antibacterial agent solution in which an antibacterial agent is dissolved in an organic solvent.
A method for producing an allergy-suppressing composition, which comprises adding an antibacterial agent solution produced in the antibacterial agent solution producing step to a polyacrylate dispersion produced in the polyacrylate dispersion producing step. In the method for producing an allergy-suppressing composition according to any one of claims 1 to 3.
A method for producing an allergy-suppressing composition, wherein the content of an inorganic salt having a protein astringent effect is set to be higher than the content of the polyacrylate.