de Greeff A, Resink J W, van Hees H M J, Ruuls L, Klaassen G J, Rouwers S M G, Stockhofe-Zurwieden N
J Anim Sci. 2016 Mar;94(3):1012-9. doi: 10.2527/jas.2015-9481.
Weaning of piglets causes stress due to environmental, behavioral, and nutritional stressors and can lead to postweaning diarrhea and impaired gut development. The diet changes experienced during weaning require extensive adaptation of the digestive system. A well-developed piglet that had creep-feed experience before weaning performs better after weaning. In the current study, the effect of providing sow-fed piglets with a supplemental nutrient-dense complex milk replacer (NDM) on gut development and growth performance was studied. Litters of sows with similar parities (3.6 ± 0.8) and similar numbers of live born piglets (13.5 ± 0.3) were assigned to 1 of 2 groups: 1 group of piglets had ad libitum access to NDM from Day 2 through 21 after birth, whereas the other group was used as controls. Nutrient-dense complex milk replacer-fed piglets were shown to be significantly heavier after 21 d of supplementation compared with the control piglets. At Day 21, 3 piglets from each litter were euthanized for morphological and functional analyses of the intestinal tract. The small intestines of NDM-fed piglets had significantly higher weights (g) as well as significantly higher relative weight:length ratios (g//cm) compared with the small intestines of control piglets ( < 0.05). Morphometric analysis demonstrated that villi length and numbers of goblet cells did not differ between groups. However, NDM-fed piglets had deeper crypts ( < 0.001) and an increased expression of the cell-proliferation marker proliferating cell nuclear antigen in crypts ( < 0.05), suggesting higher cell-proliferation rates. The gene encoding IGF-1 showed a tendency to higher gene expression in the jejunum from NDM-fed piglets ( = 0.07) compared with the jejunum from control piglets, suggesting that IGF-1 might be involved in the regulation of cell proliferation and intestinal growth. Finally, as a result of dietary fiber in NDM, piglets showed significantly increased concentrations of metabolic fermentation products. This suggests differences in metabolic activity in the colon between treatment groups. In conclusion, providing sow-fed piglets with NDM before weaning stimulates intestinal proliferation, leading to increased circular growth. Nutrient-dense complex milk replacer supplementation might, therefore, help piglets through the transition period at weaning by increased BW and increased capacity for uptake of nutrients.
仔猪断奶会因环境、行为和营养应激源而产生应激,可能导致断奶后腹泻和肠道发育受损。断奶期间经历的饮食变化需要消化系统进行广泛的适应。断奶前有补饲经历的发育良好的仔猪断奶后表现更好。在本研究中,研究了给由母猪哺乳的仔猪提供补充性营养密集型复合代乳粉(NDM)对肠道发育和生长性能的影响。将胎次相似(3.6±0.8)且产活仔数相似(13.5±0.3)的母猪所产仔猪分为2组中的1组:一组仔猪从出生后第2天到第21天可自由采食NDM,而另一组用作对照。与对照仔猪相比,补充NDM 21天后,采食营养密集型复合代乳粉的仔猪体重显著更重。在第21天,从每窝中选取3头仔猪实施安乐死,用于对肠道进行形态学和功能分析。与对照仔猪的小肠相比,采食NDM的仔猪的小肠重量(克)显著更高,相对重量:长度比(克/厘米)也显著更高(P<0.05)。形态计量学分析表明,两组之间绒毛长度和杯状细胞数量没有差异。然而,采食NDM的仔猪隐窝更深(P<0.001),隐窝中细胞增殖标志物增殖细胞核抗原的表达增加(P<0.05),表明细胞增殖率更高。与对照仔猪的空肠相比,采食NDM的仔猪空肠中编码IGF-1的基因表达有升高趋势(P=0.07),这表明IGF-1可能参与细胞增殖和肠道生长的调节。最后,由于NDM中含有膳食纤维,仔猪的代谢发酵产物浓度显著增加。这表明处理组之间结肠中的代谢活性存在差异。总之,在断奶前给由母猪哺乳的仔猪提供NDM可刺激肠道增殖,导致肠周长增加。因此,补充营养密集型复合代乳粉可能通过增加体重和提高营养吸收能力来帮助仔猪度过断奶过渡期。
