scholarly journals Estimating Amino Acid Requirements in Real-Time for Precision-Fed Pigs: The Challenge of Variability among Individuals

Animals ◽  
2021 ◽  
Vol 11 (12) ◽  
pp. 3354
Author(s):  
Aline Remus ◽  
Luciano Hauschild ◽  
Marie-Pierre Létourneau-Montminy ◽  
Candido Pomar

This study aimed to measure protein deposition (PD) in pigs fed with daily tailored diets where either dietary lysine (Lys) or threonine (Thr) were provided at independent levels (ignoring an ideal ratio). A total of 95 growing pigs (35 kg body weight (BW)) with electronic ear tags granting them access to automatic feeders were randomly assigned to treatments. The setup was an unbalanced 2 × 5 factorial arrangement with Lys and Thr provided at five levels (i.e., 60%, 80%, 100%, 120%, and 140% of the estimated individual requirements of Lys and Thr), resulting in 25 treatments for 21 days. The observed PD variation to Lys and Thr provisions was large, with Lys and Thr intake explaining only 11% of the variation. Cluster analysis discriminated pigs with low (167 g/d, n = 16), medium (191 g/d, n = 38), and high (213 g/d, n = 37) PD, but with a similar amino acid intake. Differences in PD were associated with differences in nutrient efficiency of utilization. Providing Lys and Thr in a factorial mode, ignoring an ideal ratio, did not decrease the variability in PD. Future research efforts should focus on identifying and investigating the sources of interindividual variability—a necessary step before final recommendations can be made for AA in precision-fed pigs.

1989 ◽  
Vol 62 (2) ◽  
pp. 255-267 ◽  
Author(s):  
M. F. Fuller ◽  
R. McWilliam ◽  
T. C. Wang ◽  
L. R. Giles

Experiments were made to estimate separately the amino acid requirements of growing pigs for maintenance and for protein accretion. The relationship between nitrogen retention and amino acid intake was estimated for each essential amino acid (except histidine) by giving, at rates of N intake of 0.25 and 2.0 g/kg body-weight (W)0.75 per d, diets in which one amino acid was made specifically deficient. From the regression coefficients it was calculated that, for the accretion of 1 g body protein, the dietary amino acid requirements were (mg) threonine 47, valine 53, methionine+cystine 36, methionine 19, isoleucine 43, leucine 78, phenylalanine+tyrosine 84, phenylalanine 41, lysine 68 and tryptophan 12. The daily amino acid requirements for N equilibrium were also estimated. From the relationship between N retention and amino acid intake the daily amino acid requirements for N equilibrium were estimated to be (mg/kg W0.75 per d) threonine 53, valine 20, methionine+cystine 49, methionine 9, isoleucine 16, leucine 23, phenylalanine+tyrosine 37, phenylalanine 18, lysine 36 and tryptophan 11. It was estimated that both for maintenance and for protein accretion tyrosine could provide close to half the total phenylalanine+tyrosine needs. Cystine could supply close to half the total sulphur amino acid needs for protein accretion but 0.8 of the needs for maintenance.


2000 ◽  
Vol 279 (1) ◽  
pp. E1-E10 ◽  
Author(s):  
Rhonda C. Vann ◽  
Hanh V. Nguyen ◽  
Peter J. Reeds ◽  
Norman C. Steele ◽  
Daniel R. Deaver ◽  
...  

Somatotropin (ST) administration enhances protein deposition and elicits profound metabolic responses, including hyperinsulinemia. To determine whether the anabolic effect of ST is due to hyperinsulinemia, pair-fed weight-matched growing swine were treated with porcine ST (150 μg · kg body wt−1 · day−1) or diluent for 7 days ( n = 6/group, ∼20 kg). Then pancreatic glucose-amino acid clamps were performed after an overnight fast. The objective was to reproduce the insulin levels of 1) fasted control and ST pigs (basal insulin, 5 μU/ml), 2) fed control pigs (low insulin, 20 μU/ml), and 3) fed ST pigs (high insulin, 50 μU/ml). Amino acid and glucose disposal rates were determined from the infusion rates necessary to maintain preclamp blood levels of these substrates. Whole body nonoxidative leucine disposal (NOLD), leucine appearance (Ra), and leucine oxidation were determined with primed, continuous infusions of [13C]leucine and [14C]bicarbonate. ST treatment was associated with higher NOLD and protein balance and lower leucine oxidation and amino acid and glucose disposals. Insulin lowered Ra and increased leucine oxidation, protein balance, and amino acid and glucose disposals. These effects of insulin were suppressed by ST treatment; however, the protein balance remained higher in ST pigs. The results show that ST treatment inhibits insulin's effects on protein metabolism and indicate that the stimulation of protein deposition by ST treatment is not mediated by insulin. Comparison of the protein metabolic responses to ST treatment during the basal fasting period with those in the fully fed state from a previous study suggests that the mechanism by which ST treatment enhances protein deposition is influenced by feeding status.


2019 ◽  
Vol 97 (Supplement_3) ◽  
pp. 109-110
Author(s):  
Robert Goodband ◽  
Mariana Menegat ◽  
Kiah Gourley ◽  
Lori Thomas ◽  
Mike Tokach ◽  
...  

Abstract Improvements in genetic selection, nutrition, health, and management has led to continuous improvement in sow productivity over the past 10 to 20 years. Today’s sows are more prolific with greater number of pigs gestated, nursed, and weaned per litter than in the past. Modern genotype females are also faster growing and leaner than predecessors. These changes in reproductive performance and body composition alter nutrient requirements during gestation and lactation. Gestation nutrient requirements appear to be met with approximately 11 to 12 g/d of standardized ileal digestible (SID) lysine and 5,000 to 6,000 Kcal/d NE. Providing greater lysine intake increases protein deposition and sow weight gain and may reduce stillbirth rate; however, the magnitude of economic benefit provides marginal economic response. Increasing energy and amino acid intake the last 3 to 4 days pre-farrowing appears to be a better alternative to shorten farrowing duration, increase the number of pigs born alive, and their weaning weights, than providing extra feed from d 90 of gestation through farrowing. During lactation, the goal is still to increase feed intake to minimize sow weight loss. Lysine requirement estimates in lactation seem to vary from study to study possibly reflecting the degree of sow muscle and fat catabolism. A summary of several lactation studies predicts a daily lactation requirement of 27 g SID Lys from the diet with an additional 13 g mobilized from body tissue for each 1 kg of litter growth. From a feed management standpoint, the availability of equipment to provide ad libitum consumption has been a major benefit in lactation. In conclusion, the literature suggests there are many successful ways to feed sows in gestation, peri-partum, and lactation, indicating that today’s sows are extremely resilient to nutritional challenges.


2007 ◽  
Vol 0 (0) ◽  
pp. 070619032309005-???
Author(s):  
J. Heger ◽  
L. Křížová ◽  
M. Šustala ◽  
S. Nitrayová ◽  
P. Patráš ◽  
...  

1986 ◽  
Vol 43 (1) ◽  
pp. 155-165 ◽  
Author(s):  
H. T. Yen ◽  
D. J. A. Cole ◽  
D. Lewis

ABSTRACTThe response to dietary lysine when provided as part of an ideal protein was examined in pigs over the range of live weight from 50 to 90 kg. Ninety-six pigs, 32 trios of littermate boars, castrated males and gilts were allocated to eight diets with lysine concentrations of 5·6, 6·2, 7·3, 8·3, 9·3, 10·3, 11·4 and 12·4 g/kg diet and corresponding concentrations of crude protein (CP) from 90 to 186 g/kg diet (all having a digestible energy of 13·38 MJ/kg). Pigs were given food on a restricted scale once daily. With increasing lysine concentration, there was a linear response (followed by a plateau) for growth and carcass characteristics up to dietary lysine concentrations of 91, 7·2 and 8·4 g/kg diet and CP concentrations of 142, 116 and 132 g/kg diet with daily lysine intakes of 22·9, 18·6 and 21·2 g and CP intakes of 357, 290 and 331 g for boars, castrated males and gilts respectively.


1988 ◽  
Vol 46 (2) ◽  
pp. 283-290 ◽  
Author(s):  
R. G. Campbell ◽  
M. R. Taverner ◽  
C. J. Rayner

AbstractForty-three entire males were used to determine the pig's tissue requirements for protein and amino acids from 8·0 to 20·0 kg, and provide information on the capacity of diets formulated with conventional ingredients to contain the same levels and balances of amino acids as ideal protein to supply these nutrients. Seven diets with similar digestible energy (15·9 MJ digestible energy (DE) per kg) and crude protein concentrations from 119 to 232 g/kg (8·7 to 17·3 g lysine per kg) were offered ad libitum between 8·0 and 200 kg live weight. The rate of protein deposition was determined by comparative slaughter. The composition of the protein deposited in the whole empty body was determined from amino acid analyses of pigs killed at 8·0 kg and from the two extreme dietary treatments at 20·0 kg. Growth performance and the rates at which protein and lysine were deposited in the empty body increased linearly with increasing dietary protein concentration up to 187 g/kg and remained relatively constant thereafter. The corresponding dietary protein and lysine intakes required to support maximal protein accretion were 178 g/day (11·7 g/MJ DE) and 13·0 g/day (0·84 g/MJ DE) respectively. Based on the maximal deposition rates for protein (91·8 g/day), and lysine (5·96 g/day) and endogenous protein loss (77middot;6 g/day) estimated from the linear component of the relationship determined between protein deposition and apparent digestible protein intake, the pig's tissue requirements for protein and lysine were only 99·4 g/day (6·5 g/MJ DE) and 6·46 g/day (0·43 g/MJ DE) respectively. This disparity between the pig's tissue protein and amino acid requirements and the dietary levels needed to support these was associated with the fact that the apparent digestibility and biological value of the dietary protein were 0·92 and 0·602 respectively. Apart from small differences in the lysine content of body protein and the methionine: lysine ratio, the average amino acid composition of pigs killed at 8·0 kg, and from the diet of highest protein concentration at 20 kg, was similar to that of ideal protein, indicating that the low utilizability of dietary protein for tissue growth and maintenance was probably associated with low amino acid digestibility and/or availability. The implications of the results with respect to expression of the growing pig's requirements for protein and amino acids are discussed.


2021 ◽  
Vol 99 (Supplement_1) ◽  
pp. 16-16
Author(s):  
Robert D Goodband

Abstract I was very fortunate to meet Gary Allee in 1984 when I began my M.S. degree at Kansas State University. I’ll remember Gary most in that he cared about people and truly wanted to serve humanity and make the world a better place through animal agriculture. He helped develop scholars, both nationally and internationally, that would be the future of our industry. Gary was proficient in seeking a solution to a problem and finding the experimental resources to explain it. Very early in his career, he helped verify the concept of a lysine:calorie ratio as a means of explaining the previously varied and inconsistent response to added fat in swine diets. Early research outlined the order of limiting amino acids in various feed ingredients. Gary’s research also focused on determining the nutritional value of protein sources for weanling pigs, such as dried whey, fish meal and dried skim milk that ultimately led to phase feeding strategies for early weaned pigs that are the backbone of our industry. Gary and his students determined lysine and other amino acid requirements for growing pigs and sows under field conditions. He helped elucidate the effects of low-protein, amino acid fortified diets under heat stress environments. As market weights increased, his research was instrumental in determining how to feed heavy weight pigs as well as those fed ractopamine. Gary grasped concepts and applied them into practical solutions in swine nutrition. He was a strong believer and leader in cooperative research among universities but also, at that time, a novel concept of university-industry partnerships. Those of us that can say they knew Gary Allee, are very fortunate and better because of it.


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