JP2007014319A - Supplement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide livestock and pet supplements for decreasing the weight of too fat animals and ameliorating physical constitution, to provide livestock feed mixed with the livestock supplements and to provide pet feed mixed with the pet supplements. <P>SOLUTION: (1) The livestock supplements are obtained by adding biotin to tea leaf powder. (2) The pet supplements are obtained by adding biotin to tea leaf powder. (3) The supplement-containing livestock feed is obtained by mixing the supplements which are obtained by adding biotin to tea leaf powder with livestock feed. (4) The supplement-containing pet feed is obtained by mixing the supplements which are obtained by adding biotin to tea leaf powder with pet feed. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a livestock supplement and a pet supplement in which biotin is added to tea leaf powder, a livestock feed containing a livestock supplement in which biotin is added to tea leaf powder, and a pet feed containing a pet supplement in tea leaf powder. .

Problems to be solved by the invention

It is estimated that 20-30% of beloved dogs are overweight or obese, and lifestyle-related diseases are increasing as in humans. Obesity or overweight is associated with the onset of fatty liver, diabetes, myocardial infarction, etc. because blood triglyceride levels and blood cholesterol levels rise. In addition, obesity or overweight compresses the skeleton and joints, leading to movement disorders. Therefore, there is a need for methods that help treat these conditions. Currently, a common method of treating obesity in dogs is to provide a diet that contains large amounts of dietary fiber to reduce caloric intake from the diet.
Although diets containing large amounts of dietary fiber can be effective in not gaining weight, it has been recognized that there are adverse health concerns as well as side effects on health. For example, fecal excretion increases, defecation frequency increases, digestion and absorption of nutrients decrease, causes pathological skin and hair, and causes a decrease in palatability. To that end, alternatives to dietary fiber are needed in order not to cause these adverse and unhealthy conditions based on abnormal obesity in livestock and overweight or pet obesity.
In order to suppress abnormal overweight in livestock, to prevent overweight or obesity in pets, to improve constitution, to enhance fatty acid metabolism and amino acid metabolism and to activate the TCA cycle, It is an object of the present invention to provide a livestock supplement and a pet supplement in which biotin is added to a powder, a livestock feed containing the livestock supplement, and a pet feed containing the pet supplement.

Means for solving the problem

The present invention achieves the above object, and is characterized by (1) a livestock supplement characterized by adding biotin to tea leaf powder, and (2) biotin added to tea leaf powder. (3) Livestock feed containing supplements, characterized in that a supplement made by adding biotin to tea leaf powder is mixed with livestock feed, (4) Biotin added to tea leaf powder It is a pet feed containing a supplement obtained by mixing a supplement made with pet feed.
Examples of the tea leaf powder used in the present invention include green tea leaf, semi-fermented tea leaf, and fermented tea leaf powder. Green tea leaf powder is most preferable, and it may be semi-fermented tea leaf powder or fermented tea leaf powder.
Catechin contained in tea leaves has the effect of suppressing fatty acid absorption, cancer prevention and dementia prevention, caffeine contained in appropriate amount suppresses thrombus formation, and theanine has the effect of suppressing the excitatory action of caffeine. .
The tea leaves contain chlorophyll and can be expected to reduce stool odor and bad breath. In addition, tea leaves are rich in dietary fiber that is soft and easy to digest, leading to the prevention of constipation and diarrhea. In addition, tea leaves are rich in water-soluble vitamins (vitamin B group, vitamin C) and fat-soluble vitamins (vitamin A, vitamin E). Various vitamins and other components can be effectively supplemented together with an appropriate amount of dietary fiber that is easily adapted to the living body by allowing the animal or pet such as dogs and cats to eat the tea leaf powder directly for administration.

Biotin (vitamin H), which is one of the vitamin B group complexes, plays an important role in fatty acid metabolism, gluconeogenesis, and amino acid metabolism as a coenzyme for the carboxylation reaction.
Biotin is an anti-dermatitis factor in humans and makes skin and nails strong in cattle and pigs. In addition, by adding biotin to livestock feed, for example, in egg-laying chickens, the number of eggs laid can be increased and stabilized.
Since biotin is water-soluble, even if biotin is overdosed, the overdosage that is not absorbed into the animal body is excreted outside the body. Accordingly, the biotin content in the livestock and pet supplements and the livestock and pet feeds to which the above supplements are added is not particularly limited. In the embodiment of the present invention, for example, when a supplement containing biotin added to tea leaf powder is administered to a mouse, the dose of biotin is preferably about 0.1 μg or more, preferably about 1 μg to 2 μg per day. However, it is not limited to this range.

1. About obesity prevention effect by tea leaves (1) When a high-fat diet was given to mature mice (12 weeks old), fat accumulated in body fat and liver after one month. However, the group of mice fed with 2% by weight of tea leaf powder added to the high fat feed compared to the group of mice fed with 2% by weight of fiber powder added to the high fat feed. Showed a remarkably low value.
Group with 2% by weight of tea leaf powder Average 412.6 grams with 2% by weight of fiber powder Group with average of 432.8 grams (2) Green tea extract extracted from green tea leaves with heated water was freeze-dried and instant green tea powder was high-fat A group given the feed added to the feed, a group given the same weight of the green tea leaves used for the extraction, a green tea leaf powder obtained by finely pulverizing the tea leaves to the same high fat feed, and a fiber powder As a result of conducting a comparative experiment on the obesity prevention effect with a group of mice fed with a diet obtained by adding to a high-fat diet, the results are as follows.
4 wt% and 2 wt% of the green tea leaf powder obtained by finely pulverizing the instant green tea and the green tea leaf of the same weight as those used in the production of the instant green tea powder were mixed with the high fat feed, respectively. .
Further, 2% by weight of fiber powder was added to and mixed with the high fat feed.
As in the previous experiment, the mouse was treated with 4% by weight of instant green tea, 2% by weight of instant green tea, 4% by weight of green tea leaf powder, 2% by weight of green tea leaf powder, 2% by weight of fiber powder. The addition group was reared in the same rearing environment with the same dose of food.
One month later, blood tests and average body weight of each group of mice were determined. The result of the average body weight of each obtained mouse group was as follows. According to these results, for the obesity prevention effect, the group of mice that ate the feed added with green tea leaf powder was the best, and then the group of mice ate the high-fat diet added with instant green tea was excellent, and added fiber powder The group of mice that ate the high fat diet was found to be inferior.
Instant green tea 4 wt% added group Average 412.0 g Instant green tea 2 wt% added group Average 431.3 g Green tea leaf powder 4 wt% added group Average 399.8 g Green tea leaf powder 2 wt% added group Average 420.5 g Fiber powder 2 wt% addition group Average 442.8 grams When the amount of lipid in blood was measured for each of the above groups of mice, the amount of lipid in each group of mice was determined by the group of mice fed with fiber powder in a high fat diet. The group of mice that ate the most fat, followed by high-fat diet supplemented with instant green tea, and the group of mice that ate high-fat diet supplemented with green tea leaf powder. According to these results, green tea leaf powder was added. It is presumed that the group of mice that ate the high-fat diet was most effective in preventing obesity.

2. Teratogenicity and gene mutagenicity of mouse embryos due to biotin deficiency We investigated whether fetal malformations caused by biotin deficiency are expressed by metabolic disorders or by gene mutation. Pregnant muta mice were fed a biotin-deficient diet and the mother was necropsied on day 18 of gestation. The mortality rate of the fetus was 66.7% (12/18) in the biotin-deficient group including intrauterine absorption, and 7.7% (1/13) in the control group. In addition, external malformations such as cleft palate and micrognathia were observed in the fetus, and these malformations were duplicated in most fetuses. Subsequently, DNA was extracted from the fetus in which an outer surface malformation was observed, and the presence or absence of a gene mutation in this DNA was examined. The gene mutation frequency in the biotin deficient group was 70.4 × 10 ⁻⁶ , and 45.7 × 10 ⁻⁶ in the control group. It was 7.0 × 10 ⁻⁵ in the biotin deficient group, which was the same as 4.6 × 10 ^{−5 in} the control group, and the teratogenicity associated with biotin deficiency was not due to gene mutation.
3. Effect of biotin deficiency on rat testis Histological observation of biotin-deficient rat testis and measurement of blood gonadotropin and testosterone levels to determine how biotin affects reproductive function Examined. At 6 weeks after feeding the deficient diet, the testis in the biotin-deficient group was atrophied, the seminiferous tubule was thin, and sperm development failure was observed. In addition, the amount of testosterone and LH in the blood was significantly reduced. When biotin was administered to biotin-deficient rats for 7 weeks, it returned to the same level as in the control group. These results suggest that biotin is important for maintaining the development and function of the male gonads and is also involved in the synthesis and secretion of gonadotropins and testosterone.
4). About the relationship between the amount of biotin in the blood and various diseases The relationship between the amount of biotin in the blood and various diseases was monitored in about 1,000 dogs in Kanagawa and Tokyo. The concentration of biotin in the blood was 1.3 ng / ml. When it became below, it turned out that the luster of the coat becomes thin, eczema, dermatitis, diabetes, cataract, kidney disease, etc. are frequently observed.
5. Monitoring results Positive findings Body odor and stool odor decreased, electrocardiogram abnormalities (heart disease and angina) improved, walking better, appetite increased. Recovery. Increased activity (1.5 times). The hair is improved and the subsequent pyoderma is reduced. Reduce itching and desquamation.

Effect

  According to the livestock or pet supplement of the present invention, for example, the obesity-suppressing effect, the anti-dermatitis effect can be obtained by administering the livestock or pet supplement supplemented to pets such as dogs and cats. The present invention has excellent effects such as the expectation of maintaining the health of the skin, improving the gloss of the hair, and reducing the body odor, bad breath and bad stool.

Claims (4)

  A livestock supplement characterized in that biotin is added to tea leaf powder.   A pet supplement characterized in that biotin is added to tea leaf powder.   A livestock feed containing a supplement comprising a supplement made by adding biotin to tea leaf powder and mixed with a livestock feed.   A pet feed containing a supplement, wherein a supplement obtained by adding biotin to tea leaf powder is mixed with a pet feed.