JP7389190B2 - Textile products with astaxanthin - Google Patents

Description

The present invention relates to astaxanthin-added textile products that are easy to manufacture, release astaxanthin slowly over a long period of time, and allow astaxanthin to be ingested on a daily basis by wearing the product.

Astaxanthin is a type of xanthophyll, and is an orange pigment that is widely distributed in nature and is contained in some algae, krill, shrimp, sea bream, salmon, etc.
Astaxanthin is known to have a high antioxidant effect, and is said to have effects such as reducing ultraviolet rays and stress, and improving muscle damage and diseases. In recent years, supplements, health foods, skin care products, etc. that contain astaxanthin have also been released.

By attaching such astaxanthin to textile products, attempts have been made to ingest astaxanthin on a daily basis and exert stress-improving effects.
In order for astaxanthin to be ingested on a daily basis and exhibit stress-improving effects, astaxanthin must be released slowly from textile products over a long period of time. However, since astaxanthin has a low affinity for textile products, it has been considered difficult to adsorb and fill it into textiles using normal processing methods. For example, a method in which textile products are immersed or padded in a treatment solution containing astaxanthin and then dried has the problem that astaxanthin is lost after a small number of washings. On the other hand, if we try to chemically bond astaxanthin to fibers, the effects of astaxanthin may be lost or astaxanthin may not be released from the fibers at all.

Therefore, as described in Patent Document 1, for example, a special method has been tried, such as dyeing and fixing astaxanthin on hollow fibers of olefin fibers or nylon fibers in a carbon dioxide medium at a temperature of 80°C or lower and a pressure of 25 MPa or lower. I've been exposed to it. However, with such a special method, there are problems in that the types of textile products that can be used are limited, and the dyeing process is complicated and expensive.

Patent No. 6044734

In view of the above-mentioned current situation, an object of the present invention is to provide an astaxanthin-attached textile product that is easy to manufacture, releases astaxanthin in a sustained manner over a long period of time, and allows astaxanthin to be ingested on a daily basis by wearing the product. .

The present invention is an astaxanthin-attached textile product comprising a textile product containing polyurethane and astaxanthin attached to the textile product.
The present invention will be explained in detail below.

As a result of intensive studies, the present inventors have surprisingly found that astaxanthin can be easily attached to textile products containing polyurethane even by conventionally known treatment methods such as water-based dyeing. The present invention was completed based on the discovery that suitable sustained release properties and washing durability can be exhibited.

The astaxanthin-attached textile product of the present invention consists of a textile product and astaxanthin attached to the textile product.
The above textile product contains polyurethane. When the above-mentioned textile product contains polyurethane, astaxanthin can be easily attached to the textile product even by a conventionally known treatment method such as a water-based dyeing method. The reason for this is not certain, but it may be that the soft segment of polyurethane (a portion derived from a compound with a hydroxyl group) has a high affinity with astaxanthin, and astaxanthin penetrates into the soft segment site and is retained appropriately. It is speculated that.

The above polyurethane means a polymer having urethane bonds. The above polyurethane is usually produced by polyaddition of a compound having an isocyanate group and a hydroxyl group. Depending on the type of compound having a hydroxyl group as a raw material, there are polyether polyurethanes, polyester polyurethanes, polycarbonate polyurethanes, etc., but any polyurethane can be used in the present invention. Among these, polyether-based polyurethane or polyester-based polyurethane is preferred, and polyether-based polyurethane is even more preferred, since it has particularly excellent affinity for astaxanthin.

The above textile products only need to contain polyurethane, and specifically, for example, textile products made of only polyurethane fibers, textile products made of polyurethane fibers and other fibers, or fibers other than polyurethane coated with polyurethane. Textile products including coated fibers can be used. Among these, textile products made of polyurethane fibers and other fibers are preferred because they are easy to manufacture, can provide excellent texture and texture, and can easily adjust the amount of astaxanthin attached. suitable.

As the polyurethane fiber, commercially available products such as Mobilon (registered trademark) (manufactured by Nisshinbo Textile Co., Ltd.), Roica (registered trademark) (manufactured by Asahi Kasei Co., Ltd.), and Lycra (registered trademark) (manufactured by Toray Operantex, Inc.) are used. be able to.

Other fibers mentioned above include natural fibers such as cotton (cellulose fiber), hemp, silk, and wool, polyethylene terephthalate, rayon, polynosic, cupro, acetate, nylon, vinylon, vinylidene, polyvinyl chloride, acrylic, and acrylic fibers. , polyethylene, polypropylene, and other synthetic fibers. These other fibers may be used alone or in combination of two or more. Among these, cotton and/or rayon are used in many textile products such as underwear, and are preferred because they provide excellent texture and texture.

When the above-mentioned textile product consists of polyurethane fibers and other fibers, the preferable lower limit of the content of polyurethane fibers in the textile product is 3% by weight, and the preferable upper limit is 50% by weight. By setting the content of polyurethane fiber in the mixed fiber within this range, it is possible to achieve both excellent feel and texture and a sufficient amount of astaxanthin deposited. A more preferable lower limit of the content of polyurethane fiber in the mixed fiber is 5% by weight, and a more preferable upper limit is 35% by weight.

The above-mentioned astaxanthin is a type of xanthophyll, and is represented by the IUPAC name 3,3'-dihydroxy-β,β-carotene-4,4'-dione. The astaxanthin has three optical isomers and four geometric isomers, and any of them can be used. Further, the above-mentioned astaxanthin also includes derivatives such as esters of astaxan chitin.
The above-mentioned astaxanthin is known to have a high antioxidant effect, and is said to have an effect of improving ultraviolet rays and stress, and an effect of improving muscle damage and diseases.
As the above-mentioned astaxanthin, natural products derived from some algae, krill, shrimp, sea bream, salmon, etc., or chemically synthesized compounds can be used.

As the above-mentioned astaxanthin, those commercially available in the form of oil or suspension (aqueous suspension) can also be used. Furthermore, astaxanthin may be used alone, or a mixture containing astaxanthin or a mixture with other xanthophylls may be used.
Specifically, for example, commercially available oils or suspensions such as AstaReal (registered trademark) (manufactured by Fuji Chemical Industry Co., Ltd.) and Astatz (registered trademark) (manufactured by Fuji Film Corporation) can be used.

In the astaxanthin-attached textile product of the present invention, the amount of astaxanthin deposited (initial deposit amount) is preferably 0.00005 wt% (0.5 ppm) or more. When the astaxanthin adhesion amount (initial adhesion amount) is 0.00005 wt% (0.5 ppm) or more, particularly high effects such as stress improvement effects can be exhibited. The astaxanthin adhesion amount (initial adhesion amount) is more preferably 0.00025 wt% (2.5 ppm) or more, and even more preferably 0.0005 wt% (5 ppm) or more. The upper limit of the amount of astaxanthin deposited (initial deposit amount) is not particularly limited, but approximately 1.0 wt% (10,000 ppm) is the practical upper limit.
The amount of astaxanthin attached can be calculated from a calibration curve prepared in advance by extracting astaxanthin from a sample of a textile product with astaxanthin using an organic solvent such as acetone, measuring the absorbance of the extract at a wavelength of 474 nm.

The astaxanthin-attached fiber product of the present invention can be easily produced by a conventionally known treatment method such as a water-based dyeing method. Specifically, for example, it can be manufactured by a method of immersing or padding a textile product in a treatment liquid containing astaxanthin and drying it.

The astaxanthin-attached fiber product of the present invention is not particularly limited, and in addition to clothing, handkerchiefs, towels, futons, etc. are also suitable. In particular, if astaxanthin is attached to sleeping products such as underwear, futons, bed mats, sheets, blankets/towel blankets, futon covers, comforter collars, pillows, pillowcases, pajamas, etc., please be careful. Since astaxanthin is ingested over a long period of time, extremely high effects can be expected.

According to the present invention, it is possible to provide an astaxanthin-attached textile product that is easy to manufacture, releases astaxanthin in a controlled manner over a long period of time, and allows astaxanthin to be ingested on a daily basis by wearing the product.

2 is a graph showing the relationship between the number of washings and the astaxanthin residual rate (%) of each astaxanthin-attached textile product in Experimental Example 1. 3 is a graph showing the relationship between the number of washings and the astaxanthin residual rate (%) of each astaxanthin-attached textile product in Experimental Example 2.

The embodiments of the present invention will be explained in more detail with reference to Examples below, but the present invention is not limited only to these Examples.

(Experiment example 1)
(1) Preparation of textile products Perform milling using polyurethane fibers (Mobilon (registered trademark) (manufactured by Nisshinbo Textiles)) and cotton yarn, with a polyurethane fiber content of 35% by weight and a cotton yarn content of 65% by weight. % knit was produced (1-A). Similarly, knits 1-B to 1-G were produced with the contents shown in Table 1. Note that in 1-B, a mixed fiber of cotton and rayon was used.

(2) Production of textile products with astaxanthin Distilled water was added to a commercially available astaxanthin suspension (ASTOTS-AWS, manufactured by Fujifilm) to adjust the concentration, and an astaxanthin treatment solution with an astaxanthin concentration of 0.025% owf was prepared. Prepared.
Each knit was immersed in the obtained astaxanthin treatment solution at a bath ratio of 1:5, squeezed with a padder, and then subjected to tenter treatment at 60° C. for 7 minutes to obtain astaxanthin-attached fiber products.

(3) Measurement of astaxanthin adhesion amount (initial adhesion amount) A part of the obtained astaxanthin-attached textile product was cut out, astaxanthin was extracted using acetone, and the absorbance of the extract at a wavelength of 474 nm was measured. The astaxanthin adhesion amount (initial adhesion amount) was calculated from a separately prepared calibration curve. The results are shown in Table 2.

(4) Evaluation of washing durability Using a normal household washing machine (Panasonic, NA-F50B5), detergent (Kao, Attack) was added to a concentration of 0.67 g/L. Washing was carried out using the liquid at a bath ratio of 1:30. After washing, each test fabric was dried in the sun. This operation was repeated 30 times. After washing 1, 5, 10, 15, 20, 25, and 30 times, the amount of astaxanthin deposited on each astaxanthin-attached textile product was measured, and the residual rate (%) of astaxanthin was measured when the initial deposit amount was taken as 100%. The results are shown in Table 2.

Based on the data in Table 2, FIG. 1 shows a graph showing the relationship between the number of washings of each astaxanthin-added textile product and the astaxanthin residual rate (%).
From FIG. 1, when using 1-D to 1-G knits that do not contain polyurethane fibers, the astaxanthin residual rate became 0% by the 15th washing cycle. It can be seen that these knits have a low affinity for astaxanthin, and all of the astaxanthin is released in a very short period of time. On the other hand, when knits 1-A to 1-C containing polyurethane fibers were used, astaxanthin remained even after washing 30 times. Furthermore, it can be seen from these that the higher the content of polyurethane fibers, the more astaxanthin tends to remain.

(Experiment example 2)
(1) Preparation of textile products Perform milling using polyurethane fibers (Mobilon (registered trademark) (manufactured by Nisshinbo Textiles)) and cotton yarn, with a polyurethane fiber content of 35% by weight and a cotton yarn content of 65% by weight. % knit was produced (2-A). Similarly, knits 2-B and 2-C were produced with the contents shown in Table 3.

(2) Production of textile products with astaxanthin Distilled water was added to commercially available astaxanthin oil (ASTOTS-50S, manufactured by Fujifilm) to adjust the concentration to prepare an astaxanthin treatment solution with an astaxanthin concentration of 0.025% OWF. .
Each knit was immersed in the obtained astaxanthin treatment solution at a bath ratio of 1:5, squeezed with a padder, and then subjected to tenter treatment at 60° C. for 7 minutes to obtain astaxanthin-attached fiber products.

(3) Measurement of astaxanthin adhesion amount (initial adhesion amount) A part of the obtained astaxanthin-attached textile product was cut out, astaxanthin was extracted using acetone, and the absorbance of the extract at a wavelength of 474 nm was measured. The astaxanthin adhesion amount (initial adhesion amount) was calculated from a separately prepared calibration curve. The results are shown in Table 4.

(4) Evaluation of washing durability Using a normal household washing machine (Panasonic, NA-F50B5), detergent (Kao, Attack) was added to a concentration of 0.67 g/L. Washing was carried out using the liquid at a bath ratio of 1:30. After washing, each test fabric was dried in the sun. This operation was repeated 30 times. After washing 1, 10, 15, 20, 25, and 30 times, the amount of astaxanthin deposited on each astaxanthin-attached textile product was measured, and the residual rate (%) of astaxanthin was measured when the initial deposit amount was taken as 100%. The results are shown in Table 4.

Based on the data in Table 4, FIG. 2 shows a graph showing the relationship between the number of washings of each astaxanthin-added textile product and the astaxanthin residual rate (%).
From FIG. 2, when using 2-C knit that does not contain polyurethane fibers, the astaxanthin residual rate became 0% by the 15th washing cycle. It can be seen that this knit has a low affinity for astaxanthin, and all of the astaxanthin is released in a very short period of time. On the other hand, when knits 2-A and 2-B containing polyurethane fibers were used, astaxanthin remained even after washing 30 times.

(Experiment example 3)
(1) Preparation of textile products Perform milling using polyurethane fibers (Roica (registered trademark) (manufactured by Asahi Kasei)) and nylon thread, and the content of polyurethane fiber is 40% by weight and the content of nylon thread is 60% by weight. wt% knit was produced.

(2) Production of textile products with astaxanthin Add distilled water to a commercially available astaxanthin suspension (ASTOTS-AWS, manufactured by Fujifilm) to adjust the concentration, and prepare an astaxanthin treatment solution with an astaxanthin concentration of 0.0015% OWF. Prepared.
The knit was immersed in the obtained astaxanthin treatment solution at a bath ratio of 1:5, squeezed with a padder, and subjected to tenter treatment at 60° C. for 7 minutes to obtain astaxanthin-attached textile products.

(3) Measurement of astaxanthin adhesion amount (initial adhesion amount) A part of the obtained astaxanthin-attached textile product was cut out, astaxanthin was extracted using acetone, and the absorbance of the extract at a wavelength of 474 nm was measured. The astaxanthin adhesion amount (initial adhesion amount) was calculated from a separately prepared calibration curve and found to be 0.15 ppm.

(4) Evaluation of washing durability Using a normal household washing machine (Panasonic, NA-F50B5), detergent (Kao, Attack) was added to a concentration of 0.67 g/L. Washing was carried out using the liquid at a bath ratio of 1:30. After washing, each test fabric was dried in the sun. This operation was repeated 5 times. After washing 1st and 5th times, the amount of astaxanthin deposited on the astaxanthin-attached textile product was measured, and the residual rate (%) of astaxanthin was measured when the initial deposit amount was taken as 100%. The astaxanthin residual rate was 79.0% after one wash and 79.0% after five washes.

According to the present invention, it is possible to provide an astaxanthin-attached textile product that is easy to manufacture, releases astaxanthin in a controlled manner over a long period of time, and allows astaxanthin to be ingested on a daily basis by wearing the product.

Claims (2)

A textile product with astaxanthin characterized by comprising a textile product containing cotton but not polyurethane, and astaxanthin attached to the textile product. Consists of a textile product that does not contain polyurethane and contains cotton and/or rayon, and astaxanthin attached to the textile product,
A textile product with astaxanthin, characterized in that the textile product is a knit.

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