KR102153984B1 - The fiber for the pet clothing using the mineral composite - Google Patents

Abstract

The present invention relates to a fiber for pet clothing. More specifically, disclosed is a fiber for pet clothing using a composite formed by mixing a plurality of minerals. The present invention can protect the body of a pet and provide a health function.

Description

The fiber for the pet clothing using the mineral composite

The present invention relates to a fiber for pet clothing, and more particularly, discloses a fiber for pet clothing using a composite formed by mixing a plurality of minerals.

The number of households with pets is increasing rapidly due to the increase in income and the becoming a nuclear family. Accordingly, a pet market that handles food, beauty, clothing, etc. of pets including veterinary hospitals is being activated. In particular, as the number of women who have pets increases, the growth in the fields of beauty and apparel to decorate the appearance of pets is remarkable. Pet clothes worn on pets not only protect the pet from the cold, but also serve to decorate the pet's appearance.

However, until now, fibers that provide health functions in these pet clothing have not been on the market.

An object of the present invention is to provide a textile for clothing that can provide health functions as well as protecting the body of a pet as described above.

As a means to achieve the above object, the present invention is a mixture consisting of pyrophyllite, sericite, zeolite, and montmorillonite. The mixture contains a natural mineral complex, and such a complex is dispersed by nanoparticles of each component. After the treatment, a composite obtained by modifying the bonded crystal structure by applying a physical force is applied to the fiber, and the pet clothing is manufactured using this.

As a result of the clinical test of the fiber to which the above complex was applied, it was found that it provides pain relief, endurance enhancement, exercise performance, anti-obesity, cell activation, and antibacterial deodorant effects.

The present invention will be described in detail through the following examples.

The natural mineral composite according to the present invention forms a composite by pulverizing pyrophyllite, sericite, zeolite, and montmorillonite into nanoparticle sizes, and then evenly mixing and pressing these components.

The formed mineral composite is coated on the fiber, and the composite-coated fiber is used to manufacture a pet clothing. The coating method is preferably a water-based urethane coating method excellent in waterproof and moisture permeability.

<Example 1>

The effect of the pet clothing according to the present invention on anti-obesity, antihyperactivity and endurance improvement in an animal model using rats and mice was examined.

Anti-obesity measurement:

-Sprague-Dawley male rats weighing around 200 g

-Induction of obesity due to hyperlipidemia

-Weight, organ weight measurement

-Measurement of serum lipid components

Anti-pain measurement:

-Male ICR mice with a body weight of about 28 g at 6 weeks of age

-Acute Pain Motel

-Acetic acid writhing method

-Hot plate method

Endurance measurement:

-Male ICR mice with a body weight of about 28 g at 6 weeks of age

-Swimming endurance capacity measurement

Immune Cell Measurement:

-Cell morphology change in RAW 264.7 macrophages

-Measurement of cell proliferation ability in RAW 264.7 macrophages

-iNOS gene expression and protein expression

1. Obesity experiment

Test animals were 6 weeks old male ICR mice weighing 28 g and Sprague-Dawley male rats weighing 200 g from Daehan Biolink Co., Ltd. and purchased from Daehan Biolink (Re)Gyeongbuk Techno Park, Daegu Haany University, Efficacy Verification Institute. It was used in the experiment after acclimating for 1 week under certain conditions (temperature: 22±2℃, humidity: 55±5%, light/dark cycle: 12 hours light/dark cycle) in an animal breeding room.

Obesity induction caused by hyperlipidemia is prepared and used according to the method of Noh. The hyperlipidemia inducing diet composition is prepared so that 1 g of cholesterol, 0.25 g of cholic acid and 2.5 g of olive oil are contained in 100 g of general feed. One group of rats was 7 rats, and they were reared while freely ingesting the high-lipid-causing feed. After ingesting a diet that induces hyperlipidemia for 2 weeks, put one animal at a time in a breeding box by the egg mass method and replace it with a regular diet. The fibers and ordinary fibers were cut into a litter shape, and the fibers were allowed to freely contact the body of the rat, followed by experimental breeding for 4-6 weeks.

According to the invention According to the present invention, in order to obtain the percentage of the rat weight change and relative organ weight due to the contact between the fiber and the general fiber The weight of each rat was measured after the start of contact between the fiber and the normal fiber. After weighing, the rat was anesthetized with ether and blood was collected using a disposable syringe of 21 gage. The blood was left in a refrigerated state for about 2 hours and then centrifuged at 3,000 rpm for 15 minutes to separate the serum. The liver was perfused with physiological saline, the portal vein was debleed, and then the water was removed with a filter paper to measure the weight. Abdominal fat, spleen, testes, and kidneys were also washed once with physiological saline and then dried to measure the weight.

The blood collected from rats was centrifuged at 3,000 rpm for 15 minutes to separate the serum. The serum was measured for total lipid (TL), total cholesterl (TC) and high density cholesterol (HDL) using a kit for measuring serum lipid content of Asan Pharmaceutical Co., Ltd. Low density cholesterol (LDL) value was calculated using the following calculation formula. LDL cholesterol = Total cholesterol-(HDL cholesterol + triglyceride/5) Total lipid was measured using a kit for measuring total lipid (Advanced diagnostic Inc., USA).

Acetic acid writhing method:

Each of the mice raised from fibers and ordinary fibers according to the present invention was injected with 0.7% acetic acid (0.1 cc/10 g) intraperitoneally. The total number of writhings for 10 minutes was measured from 10 minutes after acetic acid administration.

Hot Plate Method:

When the mice raised from the fibers and ordinary fibers according to the present invention were placed on a hot plate at a temperature of 55, the time until they jumped (latency time) was measured. Cut off was set to 60 seconds to avoid tissue damage.

3. Anti-fatigue test:

According to the invention An endurance measuring device for mice made of acrylic plastic (20×20×45 cm) to measure the anti-fatigue capacity by measuring the swimming endurance capacity of mice raised from fibers and ordinary fibers. Was used. Water at a water temperature of 25±0.1° C. was filled to a depth of 35 cm, and 0.01% of a surfactant was added, and the swimming time was measured. The swimming record of the mouse was measured from the start of swimming to the time of death.

4. Measurement of effects on immune cells:

Cell line culture

The RAW 264.7 cell line, a mouse macrophage cell line, was pre-sold from ATCC and cultured in a medium containing 5% FBS and 100 U/penicillin-streptomycin in a DMEM medium containing 2 mM glutamine, and used in the experiment.

Cytotoxic effect

In order to examine the cytotoxic effect on RAW 264.7 macrophages, Promega's CellTiter 96 AQ _ueous One Solution Cell Proliferation Assay kit was used to investigate the proliferation of these macrophages. Normal fibers and fibers according to the present invention dispensed into each well of a flat bottomed 96 well culture plate by adjusting the number of RAW 264.7 cells to become 1×10 ⁴ /well cells Incubated in the stomach. After culturing for 24 hours, 20 reagents were added to the culture solution, and then put into a 37, 5% CO ₂ incubator and incubated for 1 hour and 30 minutes, followed by measurement with an ELISA reader at 490 nm. The proliferation result was expressed as the average OD of the experimental group minus the background OD.

Antioxidative effect

(A) iNOS gene expression (RT-PCR: reverse transcription polymerase chain reaction)

RNA was isolated using TRIzol. Briefly, to isolate RNA from RAW 264.7 macrophages, RAW 264.7 macrophages were washed three times with PBS to which 0.1% DEPC was added, and then TRIzol 900 was added to homogenize. Then, 100 chloroform was added and allowed to stand on ice for 15 minutes. Then, after centrifugation at 4, 12,000 rpm for 15 minutes, the upper layer was carefully taken, and the same amount of isopropanol was added, allowed to stand at -20 for 45 minutes, followed by centrifugation, and washed once with 70% DEPC-ethanol. After drying the RNA at room temperature, it was diluted in a certain amount in distilled water to which DEPC was added, and the concentration was determined on a spectrophotometer. 5RT buffer 2, 10 mM dATP 0.25, 10 mM dGTP 0.25, 10 mM dTTP 0.25, 10 mM dCTP 0.25, MMLV reverse transcriptase (200 U/) 0.25, RNase inhibitor (28 U/) 0.25, 50 oligo dT primer 0.5, DEPC -DW 4 was put into a PCR tube to make RT-mixture, and total RNA was added thereto. This test tube was put into a PCR machine (PTC-100 ^TM Programmable Thermal Controllar; MJResearch, Inc.) and heat-treated at 42 for 60 minutes to complete the reverse transcription reaction. PCR is first 10 PCR buffer 3, 25 mM MgCl ₂ 1.8, 10 mM dATP 0.3, 10 mM dGTP 0.3, 10 mM dTTP 0.3, 10 mM dCTP 0.3, 50 μM sense and antisense primer 0.25, Taq polymerase (5 U/, Promega Co.) 0.25 was mixed, and DW was added thereto to make a final solution amount of 20 to make a PCR mixture. The PCR mixture was put into a PCR tube, reverse transcription reaction product 5 was added, mixed, and then put into a PCR machine to perform PCR under the following conditions. The PCR reaction was carried out for 1 cycle for 3 minutes at 94, followed by 35 cycles for 45 seconds at 94, 45 seconds at 57, and 45 seconds at 72, and the reaction was completed after extension at 72 for 10 minutes. The amplified product was electrophoresed on a 1.2% agarose gel, and the DNA band was confirmed using a UV transilluminater. The primers used for RT-PCR were synthesized by requesting Bioneer Co. Choongbook, and the base sequence of each primer is shown in Table 1.

(B) iNOS protein expression (Western blotting)

Protein separation from cells was isolated using lysis buffer (50mM Tris-Cl, 25mM EDTA, 650mM NaCl, 5% Triton X-100, 100X PMSF, 100X protease inhibitor coctail, 5X lysis buffer). After heating the extracted protein at 95 for 5 minutes, electrophoresis on 12% SDS-polyacrlyamide gel and Protran It was transferred to the nitrocellulose membrane. Blocking for non-specific proteins was performed while incubating with TPBS (0.1% Tween 20 in PBS) containing 10% skim milk, incubated with anti-iNOS antibody, and then ECL solution was applied to the X-ray film. The iNOS protein expression was examined by photosensitization. HSP70 was used as a control protein band and observed in the same manner as above.

5. Statistical analysis

All experimental results were expressed as mean±S.E, and significance was determined at p<0.05 level using the ANOVA test for data analysis on the measured values between each group.

Primer sequence used for detection of iNOS mRNA expression Oligonucleotide sequence G3PDH 5'-CCA CCC AGA AGA CTG TGG ATG GC-3' 5'-CAT GTA GGC CAT GAG GTC CAC CAC-3' iNOS 5'-GAC AAG CTG CAT GTG ACA TC-3' 5'-GAC AAG CTG CAT GTG ACA TC-3'

Final experiment result

One. On the rat Hyperlipidemia inducing effect

The concentration of total lipid (TL), total cholesterol (TC), high density lipoprotein-cholesterol (HDL) and low density lipoprotein-cholesterol (LDL) in serum in the group who ingested a high-lipidemia-inducing diet by No et al. for 2 weeks. To examine the changes, serum was separated and measured using a serum lipid content measurement kit, as shown in Table 2, in TL, TC, and LDL in a diet containing 1% cholesterol compared to the group administered with a normal diet. It was observed that a significant increase was observed, and in the case of HDL, it was observed that the 1% cholesterol was significantly decreased compared to the normal diet group. When dividing the experimental groups, the experimental groups were adjusted so that no significance between each experimental group was observed.

Treatment Serum(/) TL TC HDL LDL Normal diet 420.7±14.5 104.6±3.2 34.7±1.1 56.5±2.9 High cholesterol diet 534.0±16.0 173.7±7.4 21.8±1.1 142.3±8.3

Values are means±S.E. of 6 or 7 rats.

TL: total lipid

TC: total cholesterol

HDL: high density lipoprotein-cholesterol

LDL: low density lipoprotein-cholesterol

Different letter indicates significant difference between groups by p<0.05.

2. Rat Weight gain

Fibers and general fibers according to the present invention in the normal diet group, fibers according to the invention in the hyperlipidemia diet group Tables 3 and 4 show the weight change during the experiment of the rats belonging to fiber and general fiber.

General fibers and fibers according to the invention As a result of observing the increase in body weight after breeding rats with fiber as a litter to freely consume a normal diet, in the case of general fiber, 4.09±14g increased, whereas according to the present invention It was observed that the rats raised in fiber increased 3.62±12 g. It was observed that the rats bred from fibers according to the present invention had an average of 12.9% suppressed weight gain compared to the rats bred from ordinary fibers. This is the fiber according to the present invention as an inhibitory factor for weight gain. It can be thought that it is due to a certain component of the fiber, but detailed research on this should be done.

Treatment Time elapsed Initial 6 weeks Weight gain(g/day) N 205.5±2.8 385.3±5.7 4.09±0.14 NS 205.3±2.8 364.7±5.4 3.62±0.12

Values are means?S.E. of 6 rats.

Average weight gain during 6 weeks experiment.

Initial means body weight of rats at starting point of experiment.

N: general textile + normal diet (n=6)

NS: Solatontex + normal diet (n=6)

Different letter indicates significant difference between groups by p<0.05.

Treatment Time elapsed Initial 4 weeks Weight gain(g/day) H 282.7±3.5 381.6±7.4 2.25±0.10 HS 282.1±2.4 381.0±7.1 2.25±0.14

Values are means±S.E. of 7 rats.

Average weight gain during 4 weeks experiment.

Initial means body weight of rats at starting point of experiment.

H: hypercholesterolemic rats + general textile + normal diet (n=7)

HS: hypercholesterolemic rats + Solatontex + normal diet (n=7)

3. Rat Long-term weight

According to the invention Table. Same as 5 and 6. In the case of abdominal fat, fibers according to the present invention in both the normal diet and the group replaced with a normal diet after a hyperlipidemia diet The weight of abdominal fat was observed in rats reared with fiber litter compared to rats reared with regular fibers. In the case of liver, it was observed that the weight of the liver was lower in the rats raised with the fibrous fibers according to the present invention as compared to the rats raised with the general fibers. Other differences were not observed in the kidney, spleen and testis.

4. Total serum Effects on changes in fat mass

In this experiment, general fibers and fibers according to the present invention were made into litter to investigate the change in total fat mass after a normal diet and a high-lipid diet. As a result of measuring the increase in total serum fat mass while following a normal diet for 6 weeks, it was observed that the increase in total serum fat increased by 27.2% compared to the first in the case of breeding in normal fiber, whereas the increase in 8.7% was observed in the fiber according to the present invention. It was observed that the increase in total serum fat mass was suppressed in the rats raised from fibers according to the present invention, on average, about 18.5% compared to the rats raised from ordinary fibers.

As a result of measuring the reduction rate of total serum fat mass after 4 weeks of breeding in general fibers and fibrous fibers according to the present invention by replacing the hyperlipidemia diet with a normal diet, in the case of normal fibers, it decreased by 2.9%, but in the case of the fibers according to the present invention, 7.7 % Reduction was observed.

5. Serum TC , HDL and LDL changes

In this experiment, the changes in serum TC, HDL, and LDL were investigated after a normal diet and a high-lipid diet by making the fiber according to the present invention as a litter. As a result of measuring the amount of change in TC, HDL and LDL during 6 weeks of normal diet, the amount of TC was 98.3±4.9 mg/dl when bred in normal fiber, and 107.3±4.6 mg/dl was increased when bred in fiber according to the present invention. Was observed. In the case of HDL, it was observed to be 9.8±2.4 mg/dl when bred in normal fiber, and 12.5±1.9 mg/dl when bred in the fiber according to the present invention. In the case of LDL, it was observed that 21.0±4.7 mg/dl was raised in normal fiber, and 25.2±3.6 mg/dl was increased when bred in the fiber according to the present invention.

As a result of measuring changes in TC, HDL, and LDL after 4 weeks of breeding in normal fibers and fiber fibers according to the present invention by replacing the diet with normal diet after hyperlipidemia, the decrease in TC was 34.14%, and the fiber according to the present invention was bred in the fiber according to the present invention. It was observed that a decrease of 39.2±3.4% was observed. In the case of HDL, it was 24.0±1.7 mg/dl when bred in normal fiber, and 23.9±1.4 mg/dl when bred in the fiber according to the present invention. In the case of LDL, it was observed that 25.8±3.8 mg/dl was raised in normal fiber, and 29.2±2.4 mg/dl was increased when bred in the fiber according to the present invention.

6. Acute pain relief effect

A) acetic acid writhing method

Fiber according to the invention When bred in fibers, the average number of writhings was 25.8±4.6 times for 10 minutes in the acetic acid writhing method, and the average number of writhings was 25.5±3.5 times for ordinary fibers. In the acetic acid writhing method, which is one of the acute pain models, there was no difference in the number of writhings between the mice raised from the fibrous fibers according to the present invention and the mice raised from the general fibers.

B) Hot plate method

As a result of measuring the pain relief effect in the hot plate when bred from the fibers according to the present invention, the average latency of the fiber breeding group according to the present invention was 26.7±0.9 seconds, and the average of 20.9±1.8 seconds in the case of ordinary fibers. It was observed that the anti-pain effect was increased by about 27.7% compared to normal fiber. In the hot plate method, which is one of the acute pain models, mice raised on fibrous fibers according to the present invention endure a hot plate for a long time compared to mice raised on ordinary fibers, so it is effective in relieving pain induced by hot plates. It is believed to be the result shown.

7. Swimming endurance measurement

Swimming endurance measurement results, fibers according to the invention When comparing the swiming endurence capacity of mice raised on fiber and mice raised on normal fiber, it was 3.46±0.4 seconds for normal fiber, but the fiber according to the present invention When bred in the fiber was observed at 4.25 ± 0.5 seconds, the fiber according to the present invention was observed to increase the endurance by about 22.8% compared to the normal fiber. In this way, the increase in swimming time in the mice raised in the fiber fiber according to the present invention is the fiber according to the present invention. Fiber exerts anti-fatigue effect, which is believed to be the result of increasing swimming endurance of experimental animals.

8. Measurement of effects on immune cells

A) Effect on the change in the morphology of macrophages

In order to measure the effect on macrophages, which are immune cells, the macrophages cultured in a culture dish are spread on a large culture dish with normal fibers and functional fibers, and the culture dish is placed on the culture dish again. In order to rule out the effect, the cells were separated with aluminum foil and observed for 24 hours and 48 hours to observe the change in cell morphology and the effect on the number of cells. Fiber according to the invention In the case of fiber, normal fiber, and normal culture, no change in cell morphology and difference in cell number could be observed at all 24 hours and 48 hours.

B) Effect on iNOS gene and protein expression

Nitric oxide (NO), mainly produced in macrophages, is a small, unstable inorganic gas and is known to have various biological properties. NO is synthesized not only in higher animals including humans, but also in lower animals, and it has been found that synthesized NO is a signaling material in vivo and is involved in numerous physiological processes. In other words, NO is known to be involved in neurotransmission, regulation of blood pressure, and defense functions of host immune crabs against tumor cells or intracellular parasites. NO acts like a neurotransmitter at low concentrations, but excessive NO generation is reported to be involved in inflammation, causing destruction of host cells and injury to inflammatory tissues.

Various diseases are caused by the accumulation of people with disabilities that are generated internally and externally. Of these, free radicals attack biological membranes and accumulate lipid peroxidation through lipid radical chain reaction, resulting in various circulation disorders, arteriosclerosis, aging, endocrine diseases, etc. It is known to cause. NO is known as one of the most studied free radicals over the years. Therefore, in order to examine the effect on the gene expression related to NO production of fibers according to the present invention, macrophages cultured in a culture dish are laid on a large-sized culture dish, and a culture dish cultured again is placed on it. After placing, in order to exclude the influence on other cells by the wave, they were separated with aluminum foil and cultured for 24 hours. When iNOS mRNA isolated from the cultured RAW 264.7 cell line was subjected to PCR reaction, and the resulting DNA was compared by electrophoresis, the fiber according to the present invention The iNOS mRNA gene expression could not be observed in fiber, normal fiber and normal culture (Fig. 13). In addition, as a result of examining the effect of the fiber according to the present invention on the expression of iNOS protein induced by LPS, the RAW 264.7 cell line treated with only LPS and LPS and the fiber according to the present invention And the difference in the expression of the iNOS protein isolated from the RAW 264.7 cell line cultured in normal fiber could not be observed. Therefore, judging only from the results of this experiment, it is considered that the control of NO, one of the free radicals, among the functions of the fiber according to the present invention is ineffective or weak.

Summary of results

As a result of testing the anti-obesity, anti-pain, and endurance enhancing effects of the fiber according to the present invention, which is a functional fiber, the possibility as a functional fiber was suggested by showing the following anti-obesity, anti-pain, and endurance enhancing effects.

1. General fibers and fibers according to the present invention As a result of observing the increase in body weight after breeding rats with fiber as a litter to freely consume a normal diet, in the case of general fiber, 4.09±0.14 g increased, whereas in the case of rats bred from fiber according to the present invention, 3.62±0.12 An increase in g was observed. It was observed that the rats bred from fibers according to the present invention had an average of 12.9% suppressed weight gain compared to the rats bred from ordinary fibers.

2. In the case of abdominal fat, 1.62±0.06 g was obtained when reared on normal fiber in the normal diet group, and the fiber according to the present invention It was 1.52±0.08 g when bred in fiber. When rearing from normal fiber after replacing with a normal diet after a hyperlipidemia diet, the weight of the abdominal fat was 1.64±0.05 g, and the fiber according to the present invention The abdominal fat of the rats reared with fiber litter was 1.53±0.06 g, and the weight of the abdominal fat was less than that of the rats reared with normal fiber.

3. Fiber according to the invention As a result of measuring the increase in total serum fat content after raising the rats for 6 weeks while using fiber and regular fiber as a litter, the fiber according to the present invention increased by 27.2% from the first when reared on regular fiber. It was observed that only an increase of 8.7% was observed in the fiber. It was observed that the increase in total serum fat mass was suppressed in the rats raised from fibers according to the present invention, on average, about 18.5% compared to the rats raised from ordinary fibers.

4. As a result of measuring total serum fat reduction after 4 weeks of breeding in normal fibers and fibers of the fiber according to the present invention by replacing the hyperlipidemia diet with a normal diet, in the case of normal fibers, the amount of total serum fat decreased by 2.9%, but the fiber fibers according to the present invention In the case of, a decrease of 7.7% was observed.

5. Using the hot plate method, one of the acute pain models, the fiber according to the present invention As a result of examining the anti-pain effect, the fiber according to the present invention The average latency of the fiber treatment group was 26.7±0.9 seconds, and the average latency of the normal fibers was 20.9±0.8 seconds.

6. Fiber according to the present invention to examine the effect of improving endurance As a result of comparing the swiming endurence capacity of mice raised on fibers and ordinary fibers, a swimming duration of 3.46±0.4 seconds was observed in mice raised on ordinary fibers, and 4.25±0.5 seconds in the case of the fiber fibers according to the present invention. Compared to that, it was observed that the endurance was increased by about 22.8%.

Claims (4)

In the fiber for pet clothing using a mineral composite,
A mixture of pyrophilite, sericite, zeolite, and montmorillonite is pulverized into a nanoparticle size, mixed evenly and compressed to form a composite, and then the composite is coated on the fiber. delete The method of claim 1,
Fiber for pet clothing, characterized in that the composite is coated on the fiber using water-based urethane having excellent waterproof and moisture permeability. delete