Effect of Feeding-Fasting Interval on Finishing Pigs: Blood Urea and Serum Lipid, Cholesterol and Protein Concentrations

Veum, T. L.; Walker, Eva; Vleck, L.D. Van

doi:10.2527/jas1970.303388x

Cited by 14 publications

(5 citation statements)

References 23 publications

(30 reference statements)

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“…Following an opposite direction in the factor, with a positive loading (0.6), was plasma urea concentration. Basal plasma urea is well controlled, but it is affected by prolonged fasting ( Veum et al, 1970 ) and, in this study, was not associated with crude protein intake (data not shown). A first assumption would be that pigs that go for long periods without feed present a plasma urea drop, and they will eat faster when they present themselves to the feeder once they are hungry.…”

Section: Resultsmentioning

confidence: 47%

Feeding behavior of growing and finishing pigs fed different dietary threonine levels in a group-phase feeding and individual precision feeding system

Remus

Hauschild

Létourneau-Montminy

et al. 2020

Translational Animal Science

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Feeding behavior is an important aspect of pig husbandry, as it can affect protein deposition in pigs. A decrease in plasma threonine (Thr) levels may influence feed intake due to amino acid (AA) imbalance. We set out to study whether different Thr inclusion rates of 70%, 85%, 100%, 115% and 130% of the ideal Thr:lysine (Lys) ratio of 0.65 in two different feeding programs (individual precision feeding (IPF) and group phase feeding (GPF)) could affect pig feeding behavior and consequently protein deposition. Two 21-day trials were performed in a 2×5 factorial setup (feeding systems × Thr levels) with 110 pigs in growing phase (25.0 ± 0.8 kg of body weight (BW)) and 110 pigs in finishing phase (110.0 ± 7.0 kg BW), which correspond to 11 pigs per treatment in each trial. Pigs were housed in the same room and fed using computerized feeding stations. The total lean content was estimated by dual X-ray absorptiometry at the beginning (d 1) and the end (d 21) of the trial. Multivariate exploratory factor analysis was performed to identify related variables. Confirmatory analysis was performed by orthogonal contrasts and Pearson correlation analysis. Graphical analysis showed no difference in feeding patterns between feeding systems during the growing or finishing phase. Pigs exhibited a predominant diurnal feeding, with most meals (73% on average) consumed between 0600 h and 1800 h. Exploratory factor analysis indicated that feeding behavior was not related to growth performance or protein deposition in growing or finishing pigs. Changes in feeding behavior were observed during the growing phase, where increasing dietary Thr resulted in a linear increase in the feed intake rate (P < 0.05). During the finishing phase, the duration of the meal and feed intake rate increased linearly as dietary Thr increased in the diet (P < 0.05). These changes in feeding behavior are, however, correlated to body weight (BW). In conclusion, the exploratory factor analysis indicated that feeding behavior had no correlation with growth performance or protein and lipid deposition in growing or finishing pigs. Dietary Thr levels and feeding systems had no direct effect on feed intake.

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Section: Resultsmentioning

confidence: 47%

Feeding behavior of growing and finishing pigs fed different dietary threonine levels in a group-phase feeding and individual precision feeding system

Remus

Hauschild

Létourneau-Montminy

et al. 2020

Translational Animal Science

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Section: Methodsmentioning

confidence: 99%

“…Feed was removed from the Fasted pigs (PP, n = 8; M, n = 8) for a period of 72 h prior to euthanasia. The duration of fasting for 72 h was based on the foundational studies reported by Veum et al (1970) and Steffen et al (1981), who reported that fasted growing-finishing pigs did not clinically exhibit fasting-induced metabolic symptoms until they had been fasted for at least 72 h. After 72 h, dramatic measurable differences in weight gain and circulatory parameters, such as triglycerols and cholesterol, will occur. Therefore, acute fasting is defined as a 72 h period of time during which the animal is deprived of food and a chronic fast would define a period of time during which food was deprived longer 72 h.…”

Section: Experimental Designmentioning

confidence: 99%

Effects of acute fasting and age on leptin and peroxisome proliferator-activated receptor gamma production relative to fat depot in immature and mature pigs

O’Gorman¹,

Stanko²,

Keisler³

et al. 2010

Journal of Animal Physiology and Animal Nutrition

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Leptin and peroxisome proliferator-activated receptor gamma (PPARγ) are adipogenic proteins that are actively involved in metabolic homeostasis of fat. Recently, it was reported that fat tissue in humans and rodents differs in metabolic activity relative to anatomical location of the fat tissue (i.e. depots) and animal age. Hence, we hypothesized that leptin and PPARγ production in various fat depots in female pigs differs in response to acute fasting, and that these responses vary with physiological maturity of the animal. Sixteen intact crossbred immature female pigs [prepubertal (PP); 132.2 ± 4.1 days] and 16 sexually mature female pigs (M; 224 ± 7.4 days) housed in an open-air, concrete slab, sheltered barn were randomly assigned to either Control or Fasted treatments. Control pigs (PP, n = 8; M, n = 8) had ad libitum access to feed, while Fasted pigs (PP, n = 8; M, n = 8) were denied access to feed from the onset of the study (0 h) to euthanasia at 72 h. Immediately post-mortem, fat samples were collected from the subcutaneous, pelvic, kidney, and heart (M pigs only) fat depots and analysed for leptin and PPARγ mRNA and protein content. Acute fasting decreased mean leptin mRNA tissue content in a depot specific manner in M pigs (p < 0.01), while mean leptin protein concentrations in fat tissues did not differ with fat depot or age of the pig. Furthermore, acute fasting did not affect mean PPARγ mRNA tissue content in a fat depot or age dependent manner. Mean concentrations of PPARγ protein in fat depots tended to be greater in M vs. PP pigs (p = 0.07). We suggest that these data provide evidence that acute fasting has a greater effect on leptin than PPARγ production in a fat depot dependent manner in M pigs, which may be indicative of changing physiological demands as an animal matures.

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“…Finishing pigs (49 to 90 kg) adapted to an every-third-day feeding program (Veum et al, 1970) exhibit an increase in blood urea N 10 h after the meal followed by gradual reductions at both 34 and 54 h postprandial. Our N excretion data follow the pattern of this blood urea N data.…”

Section: Discussionmentioning

confidence: 99%

Nitrogen Metabolism of Gravid and Nongravid Female Swine Fed Every Third Day

Cuarón

Chappie

Easter

1983

Journal of Animal Science

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Crossbred gilts were adapted for 40 d to a 12% crude protein corn-soybean meal gestation diet fed either as a single 1.9-kg meal every day (ED) or as an accumulated 5.7 kg meal every third day (E3D). In the first experiment the effect of meal frequency on N balance was evaluated using eight gravid gilts in a 12-d balance trial. Average N retention was greater (P less than .08) for gilts fed ED (15.32 g/d) than for those fed E3D (12.64 g/d). Daily urinary N excretion showed a quadratic effect (P less than .01) with the greatest N output occurring during the second 24-h period after the meal for gilts fed E3D. The effect of physiological state on the N metabolism response to E3D feeding was measured in a second experiment using four nongravid and four gravid gilts in a 12-d N balance experiment. Average daily N retention was greater (P less than .04) for gravid gilts fed E3D (15.04 g) than for nongravid gilts fed E3D (11.82 g). Digestibility of N and energy was not affected (P greater than .10) by feeding regimen.

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Effect of Feeding-Fasting Interval on Finishing Pigs: Blood Urea and Serum Lipid, Cholesterol and Protein Concentrations

Cited by 14 publications

References 23 publications

Feeding behavior of growing and finishing pigs fed different dietary threonine levels in a group-phase feeding and individual precision feeding system

Feeding behavior of growing and finishing pigs fed different dietary threonine levels in a group-phase feeding and individual precision feeding system

Effects of acute fasting and age on leptin and peroxisome proliferator-activated receptor gamma production relative to fat depot in immature and mature pigs

Nitrogen Metabolism of Gravid and Nongravid Female Swine Fed Every Third Day

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