NL7903304A - FOOD COMPOSITION. - Google Patents

Description

r N.O. 27,646

Yoshiko Saiki, TOKYO, Japan Bedding Compound

The present invention relates to a food composition. More particularly, the invention relates to a food composition for the production of perfect foods capable of reducing caloric dietary intake to a minimum of 5 requirements, consisting of proteins, caloric sources, vitamins and mineral constituents in a good equilibrium combination and on perfect foods prepared from such a composition.

In days such as those of World War II and post-war periods, when food supplies became tight, the provision of calories was at the heart of the nutritional improvement plan. However, as the food situation has improved in recent years, the bad influences of excessive caloric intake such as, for example, internal organ diseases due to obesity, have often become more emphasized.

A variety of prepared foods, such as non-calorie foods, non-fat foods or nutritionally fortified foods with added vitamins or other ingredients, are now commercially available. However, in view of the balance of nutrients, many such foods from the market can only be called very deficient due to the imbalance among the nutrients. On the other hand, except for experts, it is very difficult for the public to prepare daily meals, taking proper account of the balance of nutrients, even though abundant food products are currently on the market. The hard crackers and other foods known as emergency foods are hardly called excellent foods in view of the nutrient balance because emphasis is placed on the calorie content as judged from the composition of the blending components.

In view of the aforementioned factual circumstances, the applicant has conducted extensive investigations and as a result has accomplished the present invention.

An object of the present invention is to provide a food composition for the preparation of perfect foods capable of reducing dietary caloric intake to minimum requirements, containing proteins, calorie sources, vitamins and mineral constituents in a well-balanced combination.

Another object of the present invention is to provide a perfect foodstuff prepared from this composition.

Yet another feature of the invention is the saving of caloric food sources.

The accompanying figure is a graphical representation of the comparison of flicker values between a group fed the food of the present invention and the group fed a conventional perfect food. Each flicker value shows the result obtained after 15 minutes of movement that simulates the drive of a bicycle. In the test, a twofold load was imposed on the fifth day.

/ ... value of the group fed with the foodstuff prepared from the composition of the present invention.

0 ... Flicker value of the group fed with a usual conventional food.

7903304 3

In general, each food is specific in physiological action and its minimum requirement depends on the need of itself, as well as on the proportions to other foods.

Foods are roughly divided into two 5 classes of caloric and non-caloric foods. Caloric foods include protein, fat and carbohydrates, which are called the three main foods. The sum total of calories present in the staple foods is the gross caloric content. The requirements for gross caloric content depend on an individual's basal metabolic ratio, the nature and amount of labor, and the ratios between the three staple foods. . 15

Irrespective of caloric intake, the need for proteins depends on nitrogen excretion (urination, cutaneous dissipation, sweating, defecation, etc.) and other factors (eg loss in digestion and absorption, stress needs, individual variation, etc.). These factors are the factors that qualify because of the living body. The factor on the protein side is its nutritional quality, which is expressed as amino acid points, the amino acid points of a perfect protein being 100. 25

When the protein requirement is met in the aforementioned manner, the caloric content of the protein can be calculated.

The fat requirement is determined to maximize the intake of essential fatty acids 50 and the caloric intake via fats is limited to a maximum of 60 cal% (preferably 20 to 40 cal%) of the gross caloric content.

The carbohydrate requirement corresponds to the residue obtained by subtracting the sum of the caloric content of the protein and that of the fat from the 7903304 V4 caloric content. The sucrose intake is calculated to be 60 g / day or less.

From the foregoing description, it appears that the following relationship exists: (Gross calories) - (calories from protein) = 5 (calories from fat and carbohydrate).

The non-caloric foods can be divided into two broad categories of vitamins and inorganic products.

The vitamin requirement is the requirement necessary for the prevention of avitaminosis and hypovitaminosis and when hypervitaminosis is to be expected "; the upper limit of the vitamin in question is determined so that no disturbance is caused. However, because vitamins are a metabolizing catalyst, the 15 vitamins in needs "depending on the quality and quantity of other foods and / or on the type and amount of labor. For example, the consumption of vitamin B increases with the increase in carbohydrate intake and in case of mental work; the consumption of Vitamin C becomes higher with the increase in body temperature due to, for example, fever or with an increase in tension, and the consumption of pantotenic acid is increased with a high fat intake.

The role played by the minerals includes the catalytic action on metabolism, maintenance of the pH in bodily fluids and constructive elements of the human body. The need for minerals for the purposes of catalytic action and maintenance of the pH varies depending on the uptake of other foods. Some minerals are required to maintain certain proportions below it. The minerals as constituents of the body should be supplemented with the amount corresponding to their daily consumption, except during the growth period. 35

An ideal human diet is based on the so-called every time perfect (SMP) system, which means that both the quality and quantity of each meal are perfect. In everyday life, however, the chances of including meals on the SMP basis are very rare, except for the nutrition specialists. 5

The perfect meal, as used here, means a meal, which contains essential nutrients in a combination, which is best suited in quality and quantity for the perfect diet. Since it is practically impossible to prepare a perfect meal for every individual, the actual meal should rely somewhat on the adaptive function of the human body. A meal of a lesser degree of dependence on the adaptive function can be considered the better. 15

The diet on the SMP basis is a better system than the perfect meal on a daily basis, because when every meal is imperfect, the latter system becomes more dependent on the adaptive function.

However, the daily preparation of such an equally excellent EMP should rely on the adequate and strict instruction of a specialist and as a result this is often not practicable for the public. Moreover, even though the meals are served on the SMP basis, the perfection of the diet will be lost when the meals are not finished or When a snack is taken between meals. When taken between perfect meals, overeating tends to result in excessive caloric intake. 30

In order to avoid excessive or deficient nutritional intake, both the delivery of perfect meals and the nutritional instruction of a specialist are required. A perfect nutritional intake can only be ensured by taking such measures. However, the perfect meal is difficult to achieve because the diet has now become less careful due to the abundance of foodstuffs manifested; one appreciates the perfect meal, but does not dare to put it into daily practice and there is a general tendency to prioritize the taste. 5

In addition, most people have no means of consuming a perfect meal, have little information about the perfect meal, and as a result, their daily meals continue to rely largely on the nutritional adaptability of the human body. 10

In view of the aforementioned problems, which have arisen from the existing nutritional state, the present invention serves to fill the imperfect balance of the food.

As far as caloric needs are concerned, it is an ideal way to include the recommended portion per day (RA / day) from the perfect meal. When taking tea or coffee with caloric sources such as sugar and / or milk as an extra, the caloric intake is increased by the caloric content of the extra. Since it is difficult to exclude all extras from social life today, the actual daily caloric intake often becomes RA / day plus the calorific value of the extras.

In the food composition of the present invention, taking into account the aforementioned conditions, the caloric value is prescribed to correspond to 90% of RA / day, with the remainder (10%) being supplemented by the extras.

If the extras are not taken, the daily caloric intake will become 90% of RA / day. The 10% reduction in caloric value is based on the following information obtained by applicant: (1) The observation results done in rats, performed over a long period of time, showed that the group of rats fed foods of 3 $ lower caloric content live longer than other groups, 7903304

V

7 when other food ingredients are perfect in both quality and quantity.

(2) Since excessive labor or the reduction in diet decreases the basal metabolic rate, a 10% reduction in caloric needs can be easily achieved (a reduction of up to 20% is possible).

(30 The test results conducted in human individuals showed that the reduction in caloric intake has no adverse effect, such as increase in fatigue, as evidenced by the normal flicker value 10 immediately / exercise that simulated cycling, and is therefore a 10% reduction in caloric intake effective and suitable.

Regarding protein uptake, it is generally believed * that an excessive uptake of 2 to 3 times HA / day is undesirable because the excess protein is known to increase the load on the kidneys which secrete the protein after its conversion to urea and that during metabolism some of the protein is not completely converted to urea, resulting in a metabolic aberration. For example, it is said that gout and diabetes, which are the diseases of modern life, are caused in part by the high caloric and high protein uptake. A deficiency in protein absorption is, of course, harmful to health. 25

Taking into account the aforementioned points, the protein content of the food composition was fixed at a value which exceeds the RA / day by 10%, because when stress is imposed, the protein requirement must increase in order to provide the material 30 for the synthesis of hormones. Although EA / day was calculated taking into account the aforementioned points, an additional 10% was added to the food composition of the invention in view of the current increased environmental stresses.

7® 0 3 3 0 4 8

The vitamin content was also increased by 20% above the HA / day, due to the recent increase in brain work and in avitaminosis. This additional amount of vitamin B ^ seems suitable in view of the knowledge that in the case of brain work, even when 3000 B vitamin 5 was administered, no excretion in the urine was observed.

Vitamin 0 content was also increased by 20% above RA / day in order to meet the increased need for vitamin G under increased stress conditions and to keep individuals free from infectious diseases, the occurrence of which increases with progress in traffic services.

Cholesterol is excreted in the form of cholic acid, and vitamin 0 is required for the conversion of cholesterol 15 to cholic acid. Since an excessive intake of cholesterol and a high fat intake are partly the cause of hypercholester oil and in turn of arteriosclerosis, a high absorption of vitamin C is preferable.

Example I 20 (Preparation of a rice cracker-like foodstuff).

100 g of eggs were well beaten and beaten. In another reservoir, 15 g of skimmed milk powder, 10 g of white sugar and appropriate amounts of inorganic ingredients, mixed with glucose, were dissolved in 30 g of water to form a thoroughly homogeneous aqueous mixture.

2000 international units (II) of fat-soluble vitamin A, 100 II of vitamin B and 15 mg of vitamin E were dissolved in 7 g of cottonseed oil. The resulting solution was mixed with 18 g of pork lard and 39 g of butter and then mixed with 150 g of rice flour and 60 g of crushed carrot to form a homogeneous mixture. This mixture was slowly added to the previously obtained beaten eggs with stirring and further mixed with 200 g of rice flour and the aqueous mixture. The mixture was slightly kneaded, flattened by rolling and small pieces of 790330419 were cut by means of a punch. The amount of water can be varied as desired. The cut pieces were baked in a shallow pan in an oven at 150-180 ° C for 5 "to 15 minutes. After cooling, the baked product was sprayed with a saturated solution of water-soluble vitamins (containing 1 2 g of vitamin, 1.3 g of vitamin 32, 2 g of vitamin Bg, 2 g of vitamin B ^ 2 and 60 mg of vitamin C), dried and packaged under reduced pressure The food thus prepared contained 77.25 g of proteins , 82 g of fats and 295.4-1 g of carbohydrates, the caloric value of which was 2252 Kcal.

Example II · (Preparation of biscuit).

Sponge cake was prepared in a conventional manner by baking the following composition.

Wheat flour (first quality low protein content) 320 g

Skimmed milk powder ~~ 100 g total eggs 65 g

Biwit 120 g

Corn oil 17 g

Margarine (or butter) 26 g

White sugar 4-3 g

Lemon juice 10 g ^ 5

Dried groundnuts 5 g

The cooled biscuit was sprayed with a saturated solution of water-soluble vitamins (55 mg vitamin C and 0.4 g vitamin B4) to obtain the product. 50

The biscuit product contained about 80 g of proteins, about 54 g of fats and about 34-0 g of carbohydrates, the caloric value being about 2250 Kcal.

Comparative example. 35

Healthy young people of average build, weight 7903304 r 54 to 64 kg, age 20 to 21 years, were selected and fed the test food for 5 days, prepared in the same manner as described in Example I.

A perfect food with a standard caloric value of 2500 Kcal was used as a control. The caloric value of the test food was about 10% lower than the standard caloric value. The protein content was about 10% higher because it is known that the secretion of the protein is promoted under imposed stress. Vitamins C and B ^ were increased by 20% and vitamins B ^ by 10%.

The individuals were divided into two groups.

Group A received a conventional perfect food as a control and group B received the food to be tested. Both groups A and B were fed the 15 usual perfect meals for the first three days and then group B was fed the food to be tested for the remainder of the test period. Ha 2 days - a daily exercise simulating cycling was imposed for 15 minutes for 5 days. Before and after each exercise, the flicker values, health status, vitamin C content of urine, the Donaggio reaction of urine and the urobilinogen reaction were examined for comparison.

The amount of food administered to each individual. The two groups were varied by accurately calculating the caloric requirement according to age, specific surface area of the body and results of the time study. Vitamin C was not added to the meal, but was administered orally as a solution with each meal in an amount corresponding to one third of the daily intake.

The results of the flicker test are included in the attached figure. Group B (pilot diet) showed a better Donaggio reaction value and urobilinogen content. The vitamin C content of the urine was as indicated in Table A.

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Table A

Vitamin G content of urine (mg / 100 ml)

Trial period A (control green) B (green) 1st day 0.5604- 0.5866 2nd day 0.5591 0.5921 5 5th day 0.5622 0.5991 4th day 0.5609 0.6001 5th day 0.5700 0.6020

As can be seen from the above results, the trial mowing time of the present invention allows the individuals to maintain daily life comparable to that of the individuals fed a meal on a BMP basis. The group fed the test meal previously showed better fatigue resistance than the control group. Thus, the foodstuff of the present invention keeps individuals from ingesting surplus caloric foods and hence food waste.

Example III 20 (Preparation of soup).

A premix was prepared from the following ingredients:

Skim milk 100 g

Total eggs 65 g 25

Protein 120 g

Corn oil 17 g

Margarine 26 g

Corn starch 28 g

Lemon juice 10 g 30

Although a soup can be prepared from the above mixture in a conventional manner, the product of this example was prepared in the following manner:

The premix was dissolved in water under heating and converted into a powder in an appropriate manner to obtain a basic stock of ready-to-eat foods. To enrich vitamins, 1000 IU of Vitamin A, 100 IU of Vitamin D, 0.7 mg of Vitamin B, 55 mg of Vitamin C were added to the base stock and sealed.

A rice cracker was prepared by baking the mixture from 330 g of rice cracker batter, 1 g of sea lettuce and 5 g of dried groundnut. A food product containing the rice cracker accompanied by the powdered soup can be prepared.

The combined nutrient content of the 10 rice cracker and the powdered soup is as follows: Proteins - 83 g

Fats 49 g

Carbohydrates 56 g

Calories (Kcal) 2250 15

Vitamin A 1900 IU

"D 100 IU

"E" 18mg "^ 0.5mg" 2.6mg 20

Nicotinic acid 10 mg

Vitamin 2 mg ”C. 60 mg

Calcium 1220 mg

Posfor 1530 mg 25

Magnesium 230 mg Iron 15 mg

Zinc - 10 mg 7903304

Claims (7)

1. Composition for the preparation of foodstuffs, characterized by the presence of Proteins (g) 25-64 (as complete protein) 5 Caloric sources corresponding to 2250-2700 kcal Vitamins: Vitamin A (IU)> 750 (preferably 750-5 * 000) Vitamin D (IU)> 100 (preferably 100-400) Vitamin Ξ (IU)> 9 (preferably 9-15) 10 Vitamin Βη (mg)> 1.2 (preferably 1.2-1, 8) Vitamin 3 ^ (mg)> 1.4 (preferably 1.4-2.0) Nicotinic acid (mg)> 1? (preferably 17-20) Vitamin Bg (mg)> 1.5 (preferably 1.5-2.0) Bolic acid (7)> 200 (preferably 200-400) 15 Vitamin B12 (7)> 2.0 (preferably 2.0-3.0) Vitamin C (mg)> 36 (preferably 36-60) Minerals: Calcium (mg)> 400 (preferably 400-800) Bosfor (mg)> 700 (preferably 700 -800) 20 Magnesium (mg)> 250 (preferably 250-350) Iodine (7)> 100 (preferably 100-150) Iron (mg)> 6.0 (preferably 6.0-18) Zinc (mg )> 9 (preferably 9-15) 2. A composition according to claim 1, characterized by the presence of wheat flour, skim milk, whole eggs, egg whites, cottonseed oil, butter, white sugar, necessary vitamins and necessary minerals. 3. Composition according to claim 1, characterized by the presence of polished rice, whole eggs, egg whites, skim milk, soybean meal, cottonseed oil, butter, white sugar, sea lettuce, necessary vitamins and necessary minerals. 4. Sponge cake made by the preparation of a sponge cake batter of the same composition according to claim 7903304, except that vitamins are omitted, spraying or coating the sponge cake batter with a solution of vitamins followed by baking, or baking the biscuit batter for obtaining a semi-finished biscuit, then spraying or coating the semi-finished biscuit with a solution of vitamins and drying. Rice cracker manufactured by preparing a rice cracker batter with the same composition as defined in claim 3, except that vitamins are omitted, spraying or coating the rice cracker batter with a solution of vitamins and baking thereof, or baking the rice cracker batter into a semi-finished rice cracker, followed by spraying or coating this semi-finished rice cracker with a solution of vitamins and drying. 15 Food composition for women and children according to claims 1 to 5> characterized in that, compared to required amounts, the protein content is increased by 10%, the caloric value is reduced by 10%, the vitamin 20 content is increased by 20%, the vitamin content is increased by 10. and the vitamin C content is increased by 20%, the iron content being the same as the required amount. 7903304 -fc FLIKER TEST VALUE $ o _______! R. ISO ί / \> Q Θ l> I «\ Γ Θ I> Is- \ f 51 K Θ> Θ> m σ 3 »CT Θ> I> Θ i V K 7903304