Liliana Bury de Azevedo scite author profile

This study aimed to assess the effects of β-mannanase supplementation in metabolizable energy (ME)-reduced diets containing xylanase-phytase on performance, fecal score, blood biochemical and immunological profile, apparent total tract digestibility (ATTD), digesta passage rate, fecal microbiome, carcass traits and meat quality in finisher pigs (n = 40 entire male hybrid, 26.0 ± 0.9 kg) randomly assigned to 1 of 4 dietary treatments: a control diet containing isolated phytase and xylanase valued at 40 kcal of ME/kg (CD0), CD0 + β-mannanase (0.3 g/kg valued at 30 kcal of ME/kg) (CD70), CD0 + β-mannanase (0.3 g/kg valued at 45 kcal of ME/kg) (CD85), and CD0 + β-mannanase (0.3 g/kg valued at 60 kcal of ME/kg) (CD100), with 10 pen replicates. Pigs fed CD0 diet showed (P = 0.002) greater ADFI. However, pigs fed CD0 diet showed (P = 0.009) lower G:F than those provided CD70 or CD85 diets. A greater (P < 0.001) superoxide dismutase concentration was observed in pigs fed CD70 diet. Pigs fed CD85 diet showed (P = 0.002) greater digestible protein than pigs fed CD0 or CD100 diets. Pigs fed CD70 diet showed an increase of 11.3% in digestible protein than those fed CD0 diet. In addition, greater (P < 0.001) digestible energy was observed in pigs fed CD85 diet. Pigs fed CD0 or CD100 diets showed greater (P < 0.05) Firmicutes:Bacteroidota ratio than those fed CD85 diet. The Muribaculaceae was more abundant (P = 0.030) in pigs fed CD70 diet than in those fed CD0 diet. The Prevotella was more abundant (P = 0.045) in pigs fed CD85 diet than in those fed CD100 diet. In conclusion, β-mannanase supplementation in diets containing xylanase-phytase allows reducing 85 kcal of ME/kg because it improves gain to feed ratio, energy and protein usage, and backfat thickness without metabolic and intestinal ecosystem disorders in finisher pigs.

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Biological response of piglets challenged with Escherichia coli F4 (K88) when fed diets containing intestinal alkaline phosphatase

Rupolo¹,

Melo²,

Azevedo³

et al. 2021

CZECH J ANIM SCI

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The aim of the study was to investigate the effect of intestinal alkaline phosphatase (IAP) added to diets on growth performance, diarrhoea incidence (DI), blood metabolites, relative organ weight, and intestinal morphometry of weaned piglets challenged with enterotoxigenic Escherichia coli F4 (K88). A total of 64 crossbred entire male piglets (25-day-old and 7.16 ± 0.28 kg body weight) were allocated into four treatments: control diet (CD–), CD– + antimicrobial growth promoter (AGP), CD– + 15 mg IAP/kg of diet and CD– + 30 mg IAP/kg of diet, with eight replications. At 15 days, all piglets were orally challenged with 6 ml of a solution containing K88 (106 colony forming units/ml). Microencapsulated IAP in acid solution showed 14.43% solubility and pH values of 1.69, 1.72, 1.51, and 1.52 at the different times measured (0.5 h, 1.0 h, 17.0 h, and 24 h); differently, IAP in basic solution had 4.10% solubility and pH values increased (5.95, 6.10, 6.32 and 6.63) according to the different times, respectively. On days 25–35, piglets that received 30 mg IAP and CD– showed a better feed conversion ratio (P = 0.075) compared to those fed 15 mg IAP. Piglets that consumed 30 mg IAP or CD– had higher (P = 0.004) average daily gain on days 35–44. On days 35–44, the piglet average daily feed intake was lower (P = 0.033) with 15 mg IAP compared to AGP. In the entire period, piglets fed 15 mg IAP showed a reduction in average daily gain (P = 0.040) and average daily feed intake (P = 0.092). Piglets on 30 mg IAP showed an improvement (P ≤ 0.05) in DI in the pre-and post-challenge periods. The relative spleen weight of the piglet increased (P = 0.043) in response to 30 mg IAP. Overall, the addition of 30 mg IAP to diets improves the growth performance, attenuates DI, and promotes an increase in spleen relative weight to maintain the healthy state of piglets.

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Effects of combined feed additives in diets to support growth performance and intestinal health profile in nursery piglets

et al. 2022

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Acerola seed meal (Malpighia emarginata) as a source of dietary fibre in starter piglet diets

Leal¹,

Rocha²,

Santana³

et al. 2021

Semina: Ciênc. Agrár.

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Three experiments were carried out to determine the nutritional value and the effect of acerola seed meal (ASM) for starter piglet diets on feed digestibility, nitrogen balance (NB), growth performance and blood metabolites. Twenty-four crossbred entire male piglets (21.07 ± 3.07 kg) were assigned to a digestibility assay (Exp. I) and distributed in a randomised block design (RBD) with two treatments composed of reference diet (RD) or test diet (20% replacement with ASM), 12 replications and with one pig per experimental unit (EU). An NB study (Exp. II) was conducted with four levels of ASM (0, 4, 8 and 12%) and 24 crossbred entire male piglets (20.78 ± 1.84 kg) allocated in an RBD of six replications and one pig per EU. The growth performance study (Exp. III) involved 120 crossbred piglets: 60 entire males and 60 females (13.85 ± 1.49 kg). Treatments consisted of a gender combination and five levels of ASM (0, 3, 6, 9 and 12%), distributed in an RBD with six replications and four animals per EU. The physicochemical composition results indicated 86.12% of dry matter (DM), 8.03% of crude protein (CP) and 4,553 kcal kg-1 of gross energy (GE) as well as apparent digestibility coefficients of 39.04 and 28.21% for CP and GE, respectively. The levels of ASM that provided the maximum estimate for final body weight, daily body weight gain and average daily feed intake were 2.93% (p = 0.037), 3.05% (p = 0.040) and 4.27% (p = 0.043), respectively. ASM can be indicated as a dietary fibre source for starter piglet diets because it contains relevant nutritional and energy values, without affecting the nitrogen balance and blood urea concentration.

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Partial replacement of soybean meal with different protein sources in piglet feed during the nursery phase

Carvalho

Oliveira

et al. 2019

Asian-Australas J Anim Sci

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ObjectiveEvaluate the partial replacement of soybean meal with different protein sources in piglet feed during the nursery phase in terms of digestibility of feed, nitrogen balance, growth performance and blood parameters.MethodsExperiment I involved 24 crossbred entire male pigs with an initial body weight (BW) of 18.28±0.7 kg and used a randomized complete block design consisting of 3 treatments (fish meal, FM; soybean protein concentrate, SPC; and soybean meal, SBM) and 8 replicates, with 1 pig per experimental unit. Experiment II involved 1,843 crossbred male and female pigs with an initial BW of 6.79±0.90 kg and was based on a completely randomized design with a 2×3 factorial arrangement (2 sexes and 3 protein sources) and 13 replicates.ResultsThe results of Exp. I indicate effects (p<0.05) of dietary protein sources on digestible protein (FM, 17.84%; SPC, 16.72%, and SBM, 18.13%) and on total nitrogen excretion (TNE, g/kg BW0.75/d) in which pigs fed with SBM-based feed had TNE values that were 5.36% and 3.72% greater than SPC and FM, respectively. In the Exp. II, there was difference (p<0.01) between sexes in the pre-starter I and starter phases, and total period in average daily feed intake (ADFI), which were greater in females, and between the protein sources, ADFI, final weight and daily weight gain. For urea in the pre-starter II and starter phases and glucose in the pre-starter II phase, there was a difference (p<0.05) between protein sources and between sexes, in starter phase in urea concentrations (females: 57.11 mg/dL and males: 50.60 mg/dL).ConclusionThe use of SBM as only protein source influences larger TNE (g/kg BW0.75/d), reduces the growth performance of piglets and increases plasma urea concentrations in pre-starter II phase.

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