CN1792217A - Additives of fodder for improving intestines function of piglings - Google Patents

Abstract

The invention discloses a feed additive for improving intestinal function of piglets. It is made by processing three or more of the five substances glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a certain proportion. Adding 0.05-2% of the feed additive for improving intestinal function of piglets of the present invention on the basis of compound feed can obviously reduce the diarrhea rate of piglets, increase daily gain and feed conversion rate. The feed additive for improving intestinal function of piglets of the invention can replace plasma protein powder and avoid biological safety problems caused by the application of plasma protein powder. After a number of tests and laboratory tests, this additive is not only efficient but also safe and non-toxic, and the animal products fed meet the food hygiene requirements.

Description

A Feed Additive for Improving Intestinal Function of Piglets

technical field

The invention relates to a feed additive for improving intestinal function of piglets.

Background technique

In pig production, the key link is the production of weaned piglets. Early weaning of piglets is an advanced technology that is widely concerned in intensive pig production at home and abroad. Early weaning can improve the reproductive rate of sows and increase the annual litter size of sows , reduce the disease transmission from the mother to the piglets, and can improve the production performance and carcass quality of the growing pigs, and at the same time can increase the utilization rate of equipment such as the farrowing room. At present, countries with developed pig farming industry have begun to promote the application of 14-day-old ultra-early weaning technology. However, an important issue brought about by early weaning is how to improve the growth performance of weaned piglets, because the growth performance of weaned piglets is not only related to the production level and economic benefits of piglets, but also related to the production performance and economic benefits of the whole growth stage of pigs , the improvement of the growth performance of piglets in the early stage will greatly improve the growth performance of piglets in the later stage, and shorten the slaughtering time of piglets, thus bringing greater economic benefits to pig production. However, the improvement of the growth performance of weaned piglets is also the most difficult part of the whole pig raising process. Because the digestive tract of piglets was not fully adapted to the digestion and utilization of mother's milk when they were born (Rhoads, 1990), the nature of the diet of piglets after weaning has undergone significant changes, and the digestive tract of piglets has not yet fully developed, the activity of digestive enzymes is insufficient, and the immune function It is also immature (Aumaitre and Corring, 1978), and weaning is not only related to physiological changes, but also changes in psychological, environmental and nutritional status, so it often manifests as poor appetite, digestive disorders, diarrhea, growth retardation, and feed utilization. Low so called "Piglet Weaning Syndrome".

The research on solving the "early weaning syndrome of piglets" is currently a research hotspot for pig science and technology workers. For example, using healthy pig blood resources in large slaughterhouses, spray-dried plasma produced by advanced separation, conditioning, and spray drying processes ( Globular) protein powder, because of its good palatability, high protein content, amino acid balance and characteristics such as retaining the activity of immunoglobulin in plasma, is used as a technical measure to solve "piglet early weaning syndrome". But it was banned due to biosafety concerns.

A large number of studies have shown that glutamine (GLN) is the fuel of intestinal cells, the precursor of purine and pyrimidine nucleotides necessary for the synthesis of cell differentiation, and an important energy substrate for mesenteric lymphoid and epithelial lymphocytes. It is an essential component of the intestinal tract-associated lymphoid tissue, and is also an essential substance for the synthesis of intestinal immunoglobulins, which plays an important role in maintaining normal intestinal function and improving intestinal immunity (James, 1998). Moreover, GLN is the most abundant amino acid in pig milk, and the reduction of GLN supply after weaning is the most fundamental cause of early weaning syndrome in piglets (Alverdy, 1990). GLN, glucose, butyrate, propionate and acetate are the energy sources of intestinal mucosal cells, among which GLN is the most important energy source of intestinal mucosal cells, followed by glucose. GLN dipeptide (such as Gly-L-Gln) is mainly absorbed in the form of dipeptide in the small intestine, and the absorption rate is high. After absorption, it is decomposed into amino acids by dipeptidase in tissues and organs such as the small intestine, which can overcome GLN monomer The thermal instability and low solubility are also an effective way to add GLN.

Contents of the invention

The invention provides a feed additive for improving intestinal function of piglets.

The feed additive for improving intestinal function of piglets is prepared by proportioning three or more of the five substances of glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose.

The ratio of various substances in the feed additives to improve the intestinal function of piglets is as follows:

1) The ratio of glutamine: sodium butyrate: vitamin C is 1:0.05-10:0.1-10.

2) The ratio of glutamine: sodium butyrate: glucose is 1:0.05-10:1-100.

3) The ratio of glutamine:vitamin C:glucose is 1:0.1-10:1-100.

4) The ratio of glutamine: sodium butyrate: vitamin C: glucose is 1:0.05-10:0.1-10:1-100.

5) The ratio of glycyl-L-glutamine: sodium butyrate: vitamin C is 1: 0.1-10: 0.1-10.

6) The ratio of glycyl-L-glutamine:sodium butyrate:glucose is 1:0.1-10:1-100.

7) The ratio of glycyl-L-glutamine:vitamin C:glucose is 1:0.1-10:1-100.

8) The ratio of glycyl-L-glutamine: sodium butyrate: vitamin C: glucose is 1:0.1-10:0.1-10:1-100.

9) The ratio of glutamine: glycyl-L-glutamine: sodium butyrate: vitamin C: glucose is 1: 0.1-10: 0.1-10: 0.1-10: 1-100.

The compound is uniformly mixed to obtain the corresponding feed additive for improving intestinal function of piglets.

The present invention starts from the digestive physiological development characteristics of piglets, applies nutritional and immune control means, and combines various active substances that can improve intestinal function, digestive enzyme activity and immunity, and successfully develops a piglet-enhancing Feed additive for intestinal function. The application of the feed additive for improving intestinal function of piglets of the present invention can prevent excessive atrophy of intestinal mucosal villi and deepening of crypts in piglets 1 to 7 days after weaning, can significantly increase the height of intestinal mucosal villi in 8 to 14 days after weaning, and can significantly improve Total protease activity in duodenal contents of weaned piglets significantly increased amylase activity in weaned piglets 14 days after weaning. The application of the feed additive for improving intestinal function of piglets of the invention can significantly increase the average daily gain of weaned piglets, reduce the rate of weaned diarrhea in piglets, and shorten the period of diarrhea. The feed additive for improving intestinal function of piglets can completely replace plasma protein powder, has significant economic and social benefits, and has a broad market prospect.

Adding 0.05-2% of the feed additive for improving intestinal function of piglets of the present invention on the basis of compound feed can obviously reduce the diarrhea rate of piglets, increase daily gain and feed conversion rate. The feed additive for improving intestinal function of piglets of the invention can replace plasma protein powder and avoid biological safety problems caused by the application of plasma protein powder. After a number of tests and laboratory tests, this additive is not only efficient but also safe and non-toxic, and the animal products fed meet the food hygiene requirements.

Detailed ways

The feed additive for improving the intestinal function of piglets is in powder form. When it is applied, the powdery compound is added to the compound feed, concentrated feed, premix or additive, and mixed evenly. The added amount is equivalent to the content in the compound feed. Calculated as 0.05 to 2%.

Example 1

Combining glutamine, sodium butyrate and vitamin C at a ratio of 1:0.05:10, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 2

Combining glutamine, sodium butyrate and vitamin C at a ratio of 1:10:0.1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 3

Combining glutamine, sodium butyrate and vitamin C at a ratio of 1:5:5.05, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 4

Combining glutamine, sodium butyrate and glucose at a ratio of 1:0.05:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 5

Combining glutamine, sodium butyrate and glucose at a ratio of 1:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 6

Combining glutamine, sodium butyrate and glucose at a ratio of 1:5.03:50.5, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 7

Combining glutamine, vitamin C and glucose in a ratio of 1:0.1:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 8

Combining glutamine, vitamin C and glucose in a ratio of 1:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 9

Combining glutamine, vitamin C and glucose at a ratio of 1:5.05:50.5, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 10

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.05:10:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 11

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 12

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:5.03:5.05:50.5, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 13

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 14

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.05:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 15

Combining glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 16

Combining glutamine, sodium butyrate, vitamin C and glucose at a ratio of 1:0.05:0.1:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 17

Combining glycyl-L-glutamine, sodium butyrate and vitamin C at a ratio of 1:0.1:10, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 18

Combining glycyl-L-glutamine, sodium butyrate and vitamin C at a ratio of 1:10:0.1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 19

Combining glycyl-L-glutamine, sodium butyrate and vitamin C at a ratio of 1:5.05:5.05, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 20

Combining glycyl-L-glutamine, sodium butyrate and glucose at a ratio of 1:0.1:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 21

Combining glycyl-L-glutamine, sodium butyrate and glucose at a ratio of 1:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 22

Combining glycyl-L-glutamine, sodium butyrate and glucose at a ratio of 1:5.05:50.5, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 23

Combining glycyl-L-glutamine, vitamin C and glucose at a ratio of 1:0.1:100, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 24

Combining glycyl-L-glutamine, vitamin C and glucose at a ratio of 1:10:1, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 25

Combining glycyl-L-glutamine, vitamin C and glucose at a ratio of 1:5.05:50.5, and mixing the above compounds evenly, obtains a feed additive for improving intestinal function of piglets.

Example 26

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:10:100, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 27

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:1, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 28

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:100, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 29

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:10:1, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 30

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:10:1, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 31

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:0.1:100, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 32

Combining glycyl-L-glutamine, sodium butyrate, vitamin C and glucose at a ratio of 1:5.05:5.05:50.5, and mixing the above compounds evenly, to obtain a formula for improving intestinal function of piglets Feed additives.

Example 33

Combine GLN, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:10:10:100, and mix the above compounds evenly to obtain an improved piglet Feed additive for intestinal function.

Example 34

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:0.1:1, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 35

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:0.1:10:100, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 36

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:10:0.1:1, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 37

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:10:0.1:100, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 38

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:0.1:10:1, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 39

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:10:10:10:1, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 40

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:0.1:0.1:0.1:100, and mix the above compounds evenly to obtain a Feed additives for improving intestinal function in piglets.

Example 41

Combine glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and glucose in a ratio of 1:5.05:5.05:5.0.5:50.5, and mix the above compounds evenly to obtain A feed additive for improving intestinal function of piglets.

Application Example 1

Add 0.5% of the feed additive for improving intestinal function of piglets of the present invention to the diet of 28-day-old weaned piglets, and the effect on the diarrhea rate of weaned piglets is shown in Table-1.

Table-1 Effect of intestinal function regulators on diarrhea rate Piglet age control group test group 28～35d35～42d42～49d 24.60± ^3.64A 27.73± ^4.96A 6.34± ^1.37A 7.14± ^2.38B 7.14± ^2.38B 0.79± ^1.37B

Add 0.5% of the feed additive of the present invention to improve intestinal function of piglets in the diet, and the diarrhea rate of piglets at the age of 28 to 35 days is 70.98% lower than that of the control group (P<0.01); the diarrhea rate of piglets at the age of 35 to 42 days is lower than that of the control group The group was 73.28% lower (P<0.01); the diarrhea rate of piglets at the age of 42 to 49 days was 87.54% lower than that of the control group (P<0.01).

Application Example 2

Add 0.75% of the feed additive for improving intestinal function of piglets of the present invention to the diet of 28-day-old weaned piglets, and the effects of 28-42-day-old piglets on daily gain and feed-to-weight ratio of weaned piglets are shown in Table-2.

Table-2 Effects of intestinal function regulators on daily gain and feed-to-weight ratio of weaned piglets project control group test group Initial weight (Kg) 42-day-old weight (Kg) Average daily gain (g) Feed-to-weight ratio 7.99±0.8411.45±1.42a246.7±10.1A1.58±0.11a 7.88±0.8112.31±1.29b316.4±8.1B1.38±0.07b

Adding 0.75% of the feed additive for improving intestinal function of piglets of the present invention to the diet of 28-day-old weaned piglets can increase the daily gain of weaned piglets by 28.25% (P<0.01) at the age of 28-42 days, and the ratio of feed to weight is 12.66%. (P<0.05).

Application Example 3

The effect of adding 1% of the feed additive for improving intestinal function of piglets of the present invention to the diet of 21-day-old weaned piglets on post-weaning serum xylose concentration is shown in Table-3.

Table-3 Effects of intestinal function regulators on serum xylose concentration (mmol/L) date 0d7d14d21d Control group 0.826±0.0430.153±0.013A0.288±0.033A0.447±0.018A Test II0.826±0.0430.345±0.019B0.583±0.018B0.930±0.044B

Add 1% of the feed additive for improving piglet intestinal function of the present invention in the diet of 21-day-old weaned piglets, and the serum xylose concentration in 1 week after weaning is higher than that of the control group by 125.49% (P＜0.01), and the serum xylose concentration in 2 weeks after weaning The sugar concentration was 102.43% higher than the control group (P<0.01), and the serum xylose concentration 3 weeks after weaning was 108.05% higher than the control group (P<0.01).

Claims (10)

1. a feed addictive of promoting intestines function of piglings is characterized in that by the material more than three kinds or three kinds in glutamine, glycyl-L-glutamine, sodium butyrate, vitamin C and five kinds of materials of glucose formulated in proportion.

2. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glutamine: sodium butyrate: the vitamin C ratio is 1: 0.05～10: 0.1～10.

3. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glutamine: sodium butyrate: the glucose ratio is 1: 0.05～10: 1～100.

4. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glutamine: vitamin C: the glucose ratio is 1: 0.1～10: 1～100.

5. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glutamine: sodium butyrate: vitamin C: the glucose ratio is 1: 0.05～10: 0.1～10: 1～100.

6. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glycyl-L-glutamine: sodium butyrate: the vitamin C ratio is 1: 0.1～10: 0.1～10.

7. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glycyl-L-glutamine: sodium butyrate: the glucose ratio is 1: 0.1～10: 1～100.

8. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glycyl-L-glutamine: vitamin C: the glucose ratio is 1: 0.1～10: 1～100.

9. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glycyl-L-glutamine: sodium butyrate: vitamin C: the glucose ratio is 1: 0.1～10: 0.1～10: 1～100.

10. a kind of feed addictive of promoting intestines function of piglings according to claim 1 is characterized in that described glutamine: glycyl-L-glutamine: sodium butyrate: vitamin C: the glucose ratio is 1: 0.1～10: 0.1～10: 0.1～10: 1～100.