NL8000421A - METHOD FOR INFLUENCING THE FOOD OF NON-CREST ANIMALS, AND A PREPARATION TO BE USED THEREOF. - Google Patents

Description

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Method for influencing the diet of non-ruminant animals and a preparation to be used therewith.

This invention relates to a method for improving the nutrition of non-ruminant animals, and in particular of the not yet ruminant calf, and a preparation to be used therewith.

5 The feeding of young calves with natural milk is increasingly being replaced by formula. Artificial milk powder is a balanced mixture of skimmed milk powder with fats, carbohydrates and other substances that are beneficial for the good growth of the not yet ruminant animals, which still resemble monogastric animals in their anatomy and digestion.

At birth they already have the four stomachs of the adult ruminant. In line with their esophagus, there is a semi-cylindrical channel called the "esophageal slot", the open side of which faces down toward the rumen. When feeding the calf, these lips are contracted so that they come together and form a cylindrical gutter which connects the esophagus directly to the abomasum and shortens the rumen. This physiology must be maintained in order to achieve the best yield when fattening calves.

It is therefore necessary to avoid any power supply and strike that could interfere with the closure of the esophageal slot.

Lipids are the main source of energy in the diet of the not yet ruminating calf; they contribute 35 to 25 50% of all calories. It is known that the bile a whole

plays an important role in the digestion and absorption of fats; this increases the pH of the intestinal contents so that it is at the optimum pH

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SO is 0 0 4 21 _

Sr "2 for the action of the pancreatic lipase.

It turns out that veal calves are often chronically overfed, as a result of which the liver is overloaded, both by the amount of food and by the nature of the fats contained therein.

The object of the present invention is primarily to provide the calf fatteners with a method and a preparation to be used therewith which facilitate the secretion of bile without disturbing the closure of the esophageal groove, in other words improving the nutrition of the not yet ruminating calf. is becoming.

Surprisingly, it has now been found that sorbitol (which is known to promote bile and liver functions in humans) can act as a bile stimulant in not yet ruminant animals, particularly in the calf, despite the special anatomy of these animals, without disturbing the reflex that closes the esophagus.

It follows that the agent according to the invention for improving the not yet ruminant animal must consist of sorbitol in the form of powder, of a solution or of sorbitol as the main constituent of a hydrogenated starch hydrolyzate, which sorbitol as well as the other constituents of the hydrolyzate may be on a carrier, and the sorbitol must meet, inter alia, the purity requirements 420 I and II set by the Council of Ministers of Europe for emulsifiers, stabilizers, thickeners and gelling agents in foodstuffs (see order 78 / 663 / CEE of 25.7.1978).

These purity requirements imply, inter alia, that in an aqueous sorbitol preparation the dry matter must consist of at least 71% sorbitol.

The method according to the invention for improving the feed of the not yet ruminant animal is characterized in that an effective amount of sorbitol is added to the feed of that animal. The commercial product to be used for this purpose consists of the feed for the non-ruminant animal containing an effective amount of sorbitol.

In an advantageous embodiment of the 800 0 4 21 3 η invention, 3 to 15 g, preferably about 10 g, of sorbitol are added to the diet for one day. It is advantageous that the sorbitol constitutes between 0.1 and 2% by weight, preferably about 0.3% of the total feed of the not yet ruminant animal.

The use of sorbitol as a bile stimulant in the diet of non-ruminant animals entails an increase in the bile secretion, and thereby an improvement in the action of the pancreatic lipase and an increase in the content of bile acid salts. which promote the transfer of the digestion products of fats through the dermal membrane.

This shows a slightly higher average weight gain per day, a slightly lower average feed consumption per day, less strongly colored fat deposits, and an average better health of the animal.

15 Average weight gain per day (the technically and economically most important factor in fattening calves) is the difference between final weight and initial weight divided by the number of days raised. Feed consumption (also a very important factor) is the weight of 20 feed consumed divided by the weight gain. The fat edges of the muscle tissues are very much appreciated by the consumer because veal is very dry; this calf fat must be satiny white, and sorbitol-lined calves have a whiter fat than that of blank calves.

The carrier on which the sorbitol (and any other components of the hydrolyzate of which the sorbitol forms part) may consist of starch, maltodextrins, vegetable, animal or synthetic proteins, milk powder, milk whey, fatty premixes and other similar products. Such combinations and the manner in which they are prepared are the subject of co-filed patent application 80.

Administration of the preparation according to the invention to the animal can be done by mixing it with the other feed ingredients when the animals are fed; ready-to-use mixtures may also be used which contain, in addition to the sorbitol or the sorbitol preparation, other or all other necessary feed ingredients 80 0 0 4 21 4.

The invention is now further illustrated by the following non-limiting examples.

Example I

5 Administration of sorbitol as a powder with 98% purity to test calves with fistulas.

Tests were performed with calves each equipped with a fistula which drained the bile from the bile duct. The flow of bile was continuously measured with an automatic system (which was done under the responsibility of Mr Thivend of the INRA (Test station for rearing ruminants, Theix and surroundings). This made it possible to follow the galais separation and the bile , after taking a suitable sample for determining dry matter and inorganic salts therein, to return it to the animal.

The animals were fed with cow's milk, twice a day they were fed an amount determined by their age and appetite. The sorbitol was added to the milk at a dose of 5 g at a time, i.e. 10 g per day.

As can be seen from Table A, the addition of sorbitol leads to a significant increase in the bile separation: 166 ml / hour against 139 ml / hour in a calf that did not receive sorbitol.

Table A

25 Time after the bile secretion in m / h feeding_Blanco Calf with 5 g sorbitol per meal 1 h 129 185 2 h 82 94 3 h 108 94 30 4 h 138 137 5 h 174 205 6 h 208 239 7 h 168 216

Average 139 166 35 The amounts of inorganic salts separated by the animals were also determined. The results of this 800 0 4 21

V

5 are shown in Table B, and are the 4-hour averages during which sampling was performed. Sorbitol is seen to increase the secretion of various cations by about 10 to 20%.

Table B

5 Ration Bile-secreted cations (mg / h) _ __Blanco_Calf with 5 g sorbitol per meal_

Ca 8.74 9.90

After 0.53 0.63

Mg 2.27 2.61 10 K 36.59 44.87

Fe 0.036 0.043

Both tests show that the sorbitol promotes bile secretion.

Example II

The example experiment was repeated, but now the sorbitol was added as a syrup whose 71% dry matter consisted of d-sorbitol, and now not 5 g but only 3 g sorbitol was given per meal. The results of these tests are shown in Tables C and D, which are similar to Patterns A and B.

Table C

Biliary secretion in ml / hour _ Blank_ Calf with 3 g sorbitol per meal_

Average 176 219

Table D

25 Cations secreted with bile (mg / h)

Ration _Blanco_Calf with 3'g sorbitol per meal_

Ca 7.23 9.33

After 0.40. 0.45

Mg 2.27 2.36 30 K 26.67 33.96

Fe 0.031 0.037

Once again, under the influence of sorbitol, a noticeable increase is seen in the amount of bile and the amounts of salts separated therewith.

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Example III

Test with sorbitol on corn starch.

To an approximately 40% suspension of corn starch, per kg of dry matter, 280 g of sorbitol syrup containing 70% of dry matter was added, the dry matter of which was 91% d-sorbitol, obtained by hydrogenation of a starch hydrolyzate. This mixture was dried on rollers rotating at 6 revolutions per minute and heated with 10 atmosphere steam. This gave a swelling pre-gelatinized starch containing about 15% sorbitol.

The sorbitol thus recorded was administered to animals in food, the blank animals receiving no sorbitol. The experiments were done with two groups of 50 calves each. The feeds used thereby had the following compositions: a) for the time of growth

Blank Test (wt%) (wt%)

Spray dried milk 71 71 20 Pig fat 20 20

Glucose 2 2

Swelling corn starch 3 3

Pre-gelatinized corn starch + attached sorbitol 0 2 25 (of which 0.3% sorbitol)

Mineral and vitamin mixture 2 2 b) before fattening

Blank Test (wt%) (wt%) 30 Spray dried milk 66 66

Pig fat 20, 20

Glucose 3 2

Malto-dextrin 5 5

Swelling corn starch 3 3 35 Pre-stiffening requirement corn starch 2 0 „. ..y- u. . , (of which 0.3% sorbitol)

Pre-gelatinized corn starch + attached sorbitol 0 2

Mineral and vitamin mixture 2 2 80 0 0 4 21 "κ 7

The results of the experiments with these feeds are shown in Table E. Sorbitol is seen to have a markedly higher weight gain per day, and after slaughter the depot fat of the sorbitol calves was found to be less colored than that of the blank 5 calves .

Table E

Blank Calves that received sorbitol

Initial weight 46.8 kg 46.8 kg 10 Final weight 143.6 kg 145.4 kg

Weight gain 96.8 kg 98.6 kg

Carcass 91.7 kg 91.6 kg

Yield S 63.8% 63.0%

Average weight gain per day 1181 g 1207 g consumption index 1.54 1.52% white meat (Extra quality) 90% 91%% light colored meat 20 (First quality) 10% 9%

Mortality 1% 1% * Efficiency = weight of the carcass / total final weight.

From the whole of tests it is clear that the sorbitol enhances the gala separation without hindering the closing of the esophagus groove. Thus, one has a method for improving the not yet ruminant animal and a preparation to be used therewith.

Of course, this invention is not limited to the experiments described here.

30 800 04 21

Claims (9)

Preparation for improving the diet of the not yet ruminant animal, characterized in that it contains sorbitol, in the form of powder, of a solution or of sorbitol which is the main component of a hydrogenated starch hydrolyzate, which sorbitol as well as any other components of the hydrolyzate may be supported, which sorbitol meets the purity requirements 420 I and II set by the Council of Ministers of Europe for emulsifiers, stabilizers, thickeners and gelling agents for foodstuffs. 2. A method for improving the feed of the not yet ruminant animal, characterized in that an effective amount of sorbitol is added to the feed of that animal. 3. Commercial product for the feeding of the not yet ruminant animal, characterized in that it contains an effective amount of sorbitol. Method according to claim 2, characterized in that each animal is given 3 to 20 g sorbitol per day. Method according to claim 4, characterized in that each animal is given about 10 g sorbitol per day. Commercial product according to claim 3, characterized in that it contains 0.1 to 2% by weight of sorbitol. 7. Commercial product according to claim 6, characterized in that it contains about 0.3% sorbitol. 8. Method mainly according to description and / or pre-beds. 9. Preparation mainly according to description and / or examples. 30 80 0 0 4 21