WO1992016218A1

WO1992016218A1 - Carnitine-supplemented diet for starter pigs

Info

Publication number: WO1992016218A1
Application number: PCT/US1992/000772
Authority: WO
Inventors: Stephen A. Blum; Robert D. Goodband; Jim L. Nelssen; Larry G. Newton
Original assignee: Lonza Inc.; University Of Georgia Research Foundation, Inc.; Kansas State University Research Foundation
Priority date: 1991-03-22
Filing date: 1992-01-29
Publication date: 1992-10-01
Also published as: AU1888292A; EP0576596A1; JP2667055B2; JPH06507784A; CA2106274C; CA2106274A1; EP0576596A4

Abstract

A feed composition containing L-carnitine and a high nutrient density diet is found to increase the lean-to-fat ratio of early weaned pigs. The L-carnitine is preferably reduced as the animal passes through its various stages of development, with initial concentrations ranging from 5 to 5000 ppm. In the finishing stage, less than 5 ppm of L-carnitine may advantageously be incorporated in the diet.

Description

-I- CARNITINE-SUPPLEMENTED DIET FOR STARTER PIGS

Background of the Invention

It has long been desirable to increase feed efficiency, weight gain, and lean tissue of swine. Work has been performe with carnitine to achieve certain of these results and som success has been achieved. G. L. Newton and K. D. Haydo reported in the 1986 University of Georgia Swine Report tha feeding diets containing 0.95, 1.1 or 1.25% lysine, with o without 0.2% dl-carnitine HCl, to 28 day old nursery pigs ha an effect on daily weight gains and feed efficiency. The pigs were fed a conventional diet containing 72.4% corn and 24.2% soybean meal with vitamin, mineral and antibiotic supplementa¬ tion. The 1.1% lysine diet produced higher daily gains and improved feed efficiencies than the other diets. The effect on daily gain was significant throughout the study, while the effect on feed efficiency was significant for the first 4 days. There were also significant linear and curvilinear effects of lysine level on feed efficiency after 4 and 28 days. Carnitine did not have a significant effect on performance and did not alter the need for lysine. However, the results indicated the possibility of a greater response to supplemental lysine when nursery diets were also supplemented with carnitine. There were indications that post-weaning lag might be somewhat reduced in lighter weight pigs. The results of two supplemental trials conducted to determine whether addition of carnitine to nursery diets would have an effect on post-weaning lag were reported in the 1987 University of Georgia Swine Report by G. L. Newton and K. D. Haydon. In the first trial, 144 pigs were fed simple corn-soy diets containing two levels of lysine and four levels of carnitine. For the other trial, 180 pigs 28 days of age were fed complex diets containing milk products and three levels of lysine and three levels of carnitine. When added to the simple diet, carnitine tended to produce an increase in feed intake during the first 4 days, which resulted in slightly better gains and feed efficiency at that time. When added to the complex diet, carnitine tended to increase food intake over the entire 20 day trial. Carnitine addition resulted in increased weight gains at 14 and 20 days. Work with L-carnitine in connection with finishing pigs has also been conducted. U.S. Patent Application, Ser. No. 387,856, filed July 31, 1989, improved weight gain, feed efficiency, and reduction of back fat were observed.

In addition, efforts have been made to decrease post- weaning "lag" which has become more of a problem as swine are weaned earlier and earlier. Research work has been directed towards a variety of nutritional programs for early weaned pigs (weaning from 14 to 21 days of age), including high nutrient- density diets (J. L. Nelssen, "High Nutrient-Density Diets fo Weanling Pigs," Kansas State University Swine Research Repor 1986, pages 35 to 50). A major shortcoming of the foregoin work is that the feed regimes described did not appear t increase the lean tissue growth.

It has been reported that swine from different geneti sources (genotypes) have different capacities for lean tissu growth and that its disposition is affected by the availabilit of amino acids. In a 1989 University of Kentucky Researc Report in an article by T. S. Stahly et al., "Influence o

Genetic Capacity for Lean Tissue Growth on the Amino Acid Need of Pigs," it was noted that carcass leanness was improved a dietary lysine levels were raised in connection with pigs i the 40 to 240 pound range and that pigs with high lean growt potential had much higher growth performance and lean gain whe the nutrient density of the diet was increased. These result indicated that some improvement in lean growth, through dietar manipulation, should be possible with all genotypes.

Summary of the Invention

It has now been discovered that the feeding of earl weaned pigs (often called "starter pigs"), in a timely manner, with a combination of L-carnitine and a high nutrient-densit diet (HNDD) not only increases average weight gain and fee efficiency, but also unexpectedly increases the lean tissu growth in such animals. This result is particularly surprisin because starter pigs are in a period of rapid growth wher there is very little fat. (This is in contrast to finishin pigs, where there is a much higher ratio of fat to lean.) Most strikingly, this increase in lean tissue is maintained through the later stages of growth of the pig. It is speculated that at this stage of the animal's development and with the HNDD, the L-carnitine actually partitions the nutrients so as to favor lean accretion, despite the already lean state of the animal, while at the same time allowing sufficient fat to form as is necessary for normal growth.

To be effective, it is necessary that the feed regimen be commenced at a time when the endogenous carnitine synthesis is very low, i.e., preferably in the period when the pig is less than about 24 days of age and when the pig is growing at or near its true genetic potential. The response to the carnitine-supplemented HNDD will, of course, be more pronounced for genotypes having high lean growth capacities.

Detailed Description of the Invention

In the practice of the invention, starter pigs from birth up to 24 days of age having an initial weight of from 3 to 16 pounds are fed the diet of the invention in at least two, preferably in three, phases. The Phase 1 diet is for a period of from one to three weeks, preferably two weeks or until the body weight is about 15 pounds, and contains from about 5 to 5000 ppm of L-carnitine, preferably about 500 to 2000 ppm, optimally about 1000 ppm.

In Phase 2, commenced when the pig is about 35 days old, the diet is administered from two to four weeks after Phase 1, preferably for three additional weeks. The L-car- nitine is optimally reduced to 500 ppm, but amounts between 25 and 1000 ppm are also effective.

Even after Phase 2, the addition of L-carnitine as feed supplement may be advantageous in both the grower stag (i.e., up to a weight of 160 pounds; approximately 130 days o age) and the finishing stage. During the grower stage (56 t 160 lb.), the amount of carnitine would be gradually reduce from 500 to 5 ppm. The maximum during finishing is 50 ppm desirably from 5 to 50 ppm. Generally as. the weight of th animal increases, the optimum amount of carnitine decreases.

As mentioned previously, early weaning often refers t weaning at 3 weeks of age or less. In modern nurser facilities, pigs are often weaned at 21 days of age onto a inferior diet, with pigs losing weight the first week postwean ing. In fact, weaning at 3 weeks of age in commercial opera tions commonly results in nursery pigs ranging in age from 14 to 28 days. Obviously, early weaning results in several lightweight pigs

(<10 lb.) that require increased nutrient density and diet palatability to maintain growth on a dry diet. To provide optimum nutritional management for the early weaned pig, three-phase starter program during the nursery phase of swine production was developed at Kansas State University. Listed below is a description of this starter program, with the suggested feeding interval for each phase.

Three-Phase Starter Program Item Description Recommendation Phase 1 High Nutrient- Fed to pigs until body Density Diet weight is at least 15 lb.

Phase 2 1.25% lysine, whey. Fed to pigs from 15 to corn-soybean diet 25 lb.

Phase 3 1.10% lysine, grain- Fed to pigs until body soybean diet weight is approx. 50 lb.

Starter diets for pigs weaned at 14 to 21 days of age have been the topic of considerable speculation because of the variation in results. Swine producers have grown accustomed to seeing early-weaned pigs experience a postweaning "check", which often results in increased days to market in their production unit. In fact, many producers have replaced 21-day weaning with a 28-day weaning program, simply because of the adverse performance of pigs during the initial week in the nursery. A high nutrient-density diet (HNDD) is a type of milk-based diet that is intended to improve the initial starter pig performance. Various formulations of HNDD have been tried in commercial swine production units with variable success.

There are actually two types of HNDD that have been formulated for early-weaned pigs. The first approach has been to formulate diets to be as similar to sow's milk as possible, but in a dry form. Diets based on total milk protein with added vitamins and minerals are very successful, yet prohibi¬ tively expensive. In a similar category is a HNDD formulated with an understanding of the digestive capacity of the young pig, but with some awareness for economic constraints. Such HNDD diets, useful in the practice of the subject invention, are described in the following Table: Table: Char cte istics of a ree-Phase a t r Pro ram

Antibacterial or Antibiotic

Physical Form 1/8" Pellet 1/8" Pellet Meal Form

As a general matter, the Phase 1 diets (which ar supplemented with carnitine in accordance with the practice o the instant invention) contain at least 15%, preferably from 1 to 30%, protein; from 30 to 45% dried milk products such a light edible whey, dried skim milk, and casein; and from 5 t 15% added fat.

In Phase 2, the protein is decreased to less than 25%, preferably from 15 to 25%; the dried milk products to less than 25%, preferably from 10 to 25%; and the added fat to from about 1 to 5%.

In Phase 3, the diet maintains about the same per¬ centage of protein as in Phase 2, the dried milk products are reduced to less than 10%, and the added fat substantially eliminated.

While the term "milk products" is used in the above description, it should be understood that this term is intended to include nutritional products which are derived from other sources and have compositions substantially similar to those derived from milk. These include soy protein concentrates made by extracting soy flour with ethanol to reduce the carbohydrate content, soy isolates which further concentrate the protein by acid extracting soy flour with acid, and plasma protein which is obtained by the spray drying of porcine or bovine plasma. The essential factor is to obtain a protein source that has a solids content similar to that in the mother's milk, i.e., that is highly digestible protein, very low in carbohydrates with little antigenicity.

It will be understood that other ingredients are conventionally added to the diet, as shown in the above table. The lysine percentages must be carefully controlled, the amounts used approximating those shown in the above table. Additional ingredients such as fish meal, trace minerals including copper and selenium, vitamins, antibacterials and antibiotics are also added, as is well known to those skilled in the art.

Conventionally, the diet is fed on an ad libitum basis in the form of pellets or ground to form a meal, depending on the age of the pig. The appropriate form of the feed is well known to those skilled in the art, as are the feeding regimens, that is, the frequency and amount of diet fed to the animals. Those skilled in the art may readily determine the amount o total feed at the various stages of pig development.

The following table provides the general range applicable to the various stages.

TABLE

Phase 1 Phase 2 Phase 3 Daily Intake (grams)

Broadly 150-700 400-900 600-1500

Preferred 300-500 500-800 800-1200

Most advantageously, the intake of the diet of the invention should average greater than 345 grams per day for the first two weeks, and average greater than 725 grams per day for the following three weeks. An average over 600 grams per day over the five weeks is also effective.

To demonstrate the efficacy of the instant invention attention is directed to the following example: Example One hundred eighty weanling pigs (22 ± 2 days of age, initial weight 6 kg) were used to show the effect of feeding nursery pigs L-carnitine on pig performance and carcass composition. The experimental design consisted of a 2 x 3 factorial arrangement with 0 or 1000 ppm L-carnitine fed in Phase 1 (0 to 2 weeks) combined with 0, 250 or 500 ppm L- carnitine in Phase 2 (3 to 5 weeks). Phase 1 diets contained 20% dried skim milk, 20% dried whey, 5% soybean oil and were formulated to contain 1.45% lysine. Phase 2 diets contained 10% dried whey, 5% soybean oil and were formulated to contain 1.25% lysine. Six pigs at 0 and 1000 ppm carnitine level o day 14 and six pigs at 0 and 500 ppm carnitine level on day 3 (24 total) were sacrificed and ground to determine carcas composition. In Phase 1, L-carnitine increased (P<.02) fee intake (FI) and improved (P<.08) average daily gain (ADG), but had no effect on feed/gain (F/G) . In Phase 2, and for the cumulative 5 week trial, increasing dietary L-camitine improved (linear, P<.06) F/G and decreased (linear, P<.05) FI; however, ADG was not influenced. Carcass dry matter (DM) and crude protein (CP) were not influenced (P>.15) by dietary L- carnitine on day 14 or 25. Percent carcass lipid was not affected by dietary treatment on day 14; however, pigs fed 1000 ppm L-carnitine in Phase 1 had less (P<.05) daily fat accretion (DFA) on day 35 regardless of whether they were fed carnitine in Phase 2 or not. Based on the results of this experiment, L- carnitine addition reduces carcass fat when fed in Phase 1 and improves F/G when fed in Phase 2.

a Phase 1/Phase 2 carnitine levels, ppm b Carnitine effect (P<.08) c Linear carnitine effect (P<.06) d Quadratic carnitine effect (P<.02) e Carnitine effect (P<.05)

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Claims

What is claimed is:

1. A Phase 1 feed composition for starter pigs which comprises L-carnitine in admixture with a high nutrient density diet containing at least 30% milk products.

2. The composition of claim 1 wherein from 5 to 5000 ppm of L-carnitine are present.

3. The composition of claim 1 wherein from 250 to 2000 ppm of L-carnitine are present.

4. A feed composition for starter pigs comprising at least 5 ppm of L-carnitine and a milk-based high-nutrient density diet containing at least 30% milk products, 15% protein and 5% added fat.

5. A method of increasing the lean-to-fat ratio of swine which comprises feeding to swine at least in the nursery stage a high nutrient density diet containing L-carnitine and at least 30% of milk products.

6. The method of claim 5 wherein the high nutrient density diet contains at least 5 ppm of L-carnitine.

7. The method of claim 5 wherein the carnitine fed to the swine is, generally, in an inverse proportion to its weight.

8. A method of increasing the lean-to-fat ratio of a pig which comprises feeding to an early weaned pig, for a period of at least five weeks, a diet supplemented with L- carnitine.

9. The method of claim 8 wherein the carnitine level fed to said early weaned pig during the first two weeks is from 50 to 2000 ppm and during the next three weeks is reduced to from 25 to 1000 ppm.

10. The method of claim 8 wherein the diet is a hig nutrient density diet.