Supplementing chestnut tannins in the broiler diet mediates a metabolic phenotype of the ceca.

As the demand for alternatives to antibiotic growth promoters (AGP) increases in food animal production, phytobiotic compounds gain popularity because of their ability to mimic the desirable bioactive properties of AGP. Chestnut tannins (ChT) are one of many phytobiotic compounds used as feed additives, particularly in South America, for broilers because of its favorable antimicrobial and growth promotion capabilities. Although studies have observed the microbiological and immunologic effects of ChT, there is a lack of studies evaluating the metabolic function of ChT. Therefore, the objective of this study was to characterize the cecal metabolic changes induced by ChT inclusion and how they relate to growth promotion. A total of 200 day-of-hatch broiler chicks were separated into 2 feed treatment groups: control and 1% ChT. The ceca from all the chicks in the treatment groups were collected on day 2, 4, 6, 8, and 10 after hatch. The cytokine mRNA quantitative RT-PCR was determined using TaqMan gene expression assays for IL-1B, IL-6, IL-8, IL-10, and interferon gamma quantification. The cytokine expression showed highly significant increased expressions of IL-6 and IL-10 on day 2 and 6, whereas the other proinflammatory cytokines did not have significantly increased expression. The results from the kinome array demonstrated that the ceca from birds fed with 1% ChT had significant (P < 0.05) metabolic alterations based on the number of peptides when compared with the control group across all day tested. The increased expression of IL-6 appeared to be strongly indicative of altered metabolism, whereas the increased expression of IL-10 indicated the regulatory effect against other proinflammatory cytokines other than IL-6. The ChT initiate a metabolic mechanism during the first 10 d in the broiler. For the first time, we show that a phytobiotic product initially modulates metabolism while also potentially supporting growth and feed efficiency downstream. In conclusion, a metabolic phenotype alteration in the ceca of chickens fed ChT may indicate the importance of enhanced broiler gut health.

Glycerol in ovo feeding as an energy substrate improves performance of broilers from young breeders.

Glycerol is one of the substrates used for glycogen production by the chicken embryo, which is the predominant energy source during the last days of incubation and during hatching. The objective of the present study was to evaluate the in ovo feeding (IOF) of glycerol in the light and heavy broiler eggs derived from breeders of two different ages. Two experiments, with 672 eggs each, were carried out. The only difference between the experiments was breeder age: 32 weeks old in Exp. I and 60 weeks old in Exp. II. A completely randomized experimental design in a 3 × 2 factorial arrangement was applied. Treatments consisted of three glycerol IOF doses (0, 6, or 12 mg/ml) and two egg weights (light or heavy). Incubation parameters, glycogen reserves and live performance parameters (1-7 days of age) were evaluated. Hatch of fertile eggs, embryo mortality after IOF and the number of early-hatching chicks were not affected by the treatments in both experiments. Hatchlings from heavy eggs (68.03 ± 0.64 g) laid by young breeders and receiving 6 mg glycerol/ml showed higher liver glycogen levels than those injected with 0 or 12 mg/ml. Glycerol IOF of embryos from young breeders increased feed intake and weight gain at 7 days of age, independently of egg weight. However, different glycerol dosages had no effect on the performance of the progeny of 60-week-old breeders. These results show that glycerol may be used as an IOF ingredient without affecting incubation parameters. The chickens from young breeders had greater glycogen deposition with inoculation of 6 mg/ml of glycerol and better performance with glycerol administration. However, glycerol IOF did not improve the performance of the progeny of 60-week-old breeders. Therefore, glycogen IOF may be recommended for eggs laid by young breeders.