Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets

Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets

ABSTRACT This study aimed to assess different prebiotic concentrations and principles, in addition to calcium butyrate, aiming to replace colistin as a growth promoter. The sample consisted of 120 piglets weaned at 22 days old with mean initial weight of 5.475 ± 0.719kg. The animals were assigned to random blocks in six treatments corresponding to the use of the following dietary additives: T1) colistin (40 ppm); T2) β-glucan/mannan-oligosaccharides (0.2%); T3) calcium butyrate (0.1%); T4) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.01%) + galactooligosaccharides (0.09%); T5) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.03%) + galactooligosaccharides (0.07%); and T6) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.05%) + galactooligosaccharides (0.05%). The results showed no difference among treatments for the performance parameters in any of the phases evaluated. For diarrhea incidence and intensity, the results indicated that the treatments with alternative additives had similar effects as the group treated with colistin. A significant difference was found for the profile of propionic acid (0.23% colistin and 0.32%, 0.36%, 0.37% additives) and total fatty acids (0.67% colistin and 0.97% additives) values in the caecum. The supplementation with different compositions and concentrations of prebiotics and butyric acid may viably replace colistin in controlling diarrhea and modulating volatile fatty acid production in the caecum.

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Main Authors: Silva,C.A., Dias,C.P., Callegari,M.A., Bridi,A.M., Santos,R.K.S., Luiggi,F.G., Santos,V.L., Silva,J.B.
Format: Digital revista
Language:English
Published: Universidade Federal de Minas Gerais, Escola de Veterinária 2020
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352020000401449
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spelling oai:scielo:S0102-093520200004014492020-08-11Prebiotics and butyric acid can replace colistin as a growth promoter for nursery pigletsSilva,C.A.Dias,C.P.Callegari,M.A.Bridi,A.M.Santos,R.K.S.Luiggi,F.G.Santos,V.L.Silva,J.B. additives efficiency organic acids performance ABSTRACT This study aimed to assess different prebiotic concentrations and principles, in addition to calcium butyrate, aiming to replace colistin as a growth promoter. The sample consisted of 120 piglets weaned at 22 days old with mean initial weight of 5.475 ± 0.719kg. The animals were assigned to random blocks in six treatments corresponding to the use of the following dietary additives: T1) colistin (40 ppm); T2) β-glucan/mannan-oligosaccharides (0.2%); T3) calcium butyrate (0.1%); T4) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.01%) + galactooligosaccharides (0.09%); T5) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.03%) + galactooligosaccharides (0.07%); and T6) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.05%) + galactooligosaccharides (0.05%). The results showed no difference among treatments for the performance parameters in any of the phases evaluated. For diarrhea incidence and intensity, the results indicated that the treatments with alternative additives had similar effects as the group treated with colistin. A significant difference was found for the profile of propionic acid (0.23% colistin and 0.32%, 0.36%, 0.37% additives) and total fatty acids (0.67% colistin and 0.97% additives) values in the caecum. The supplementation with different compositions and concentrations of prebiotics and butyric acid may viably replace colistin in controlling diarrhea and modulating volatile fatty acid production in the caecum.info:eu-repo/semantics/openAccessUniversidade Federal de Minas Gerais, Escola de VeterináriaArquivo Brasileiro de Medicina Veterinária e Zootecnia v.72 n.4 20202020-08-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352020000401449en10.1590/1678-4162-11596
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libraryname SciELO
language English
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author Silva,C.A.
Dias,C.P.
Callegari,M.A.
Bridi,A.M.
Santos,R.K.S.
Luiggi,F.G.
Santos,V.L.
Silva,J.B.
spellingShingle Silva,C.A.
Dias,C.P.
Callegari,M.A.
Bridi,A.M.
Santos,R.K.S.
Luiggi,F.G.
Santos,V.L.
Silva,J.B.
Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
author_facet Silva,C.A.
Dias,C.P.
Callegari,M.A.
Bridi,A.M.
Santos,R.K.S.
Luiggi,F.G.
Santos,V.L.
Silva,J.B.
author_sort Silva,C.A.
title Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
title_short Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
title_full Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
title_fullStr Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
title_full_unstemmed Prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
title_sort prebiotics and butyric acid can replace colistin as a growth promoter for nursery piglets
description ABSTRACT This study aimed to assess different prebiotic concentrations and principles, in addition to calcium butyrate, aiming to replace colistin as a growth promoter. The sample consisted of 120 piglets weaned at 22 days old with mean initial weight of 5.475 ± 0.719kg. The animals were assigned to random blocks in six treatments corresponding to the use of the following dietary additives: T1) colistin (40 ppm); T2) β-glucan/mannan-oligosaccharides (0.2%); T3) calcium butyrate (0.1%); T4) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.01%) + galactooligosaccharides (0.09%); T5) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.03%) + galactooligosaccharides (0.07%); and T6) β-glucan/mannan-oligosaccharides (0.1%) + fructooligosaccharides (0.05%) + galactooligosaccharides (0.05%). The results showed no difference among treatments for the performance parameters in any of the phases evaluated. For diarrhea incidence and intensity, the results indicated that the treatments with alternative additives had similar effects as the group treated with colistin. A significant difference was found for the profile of propionic acid (0.23% colistin and 0.32%, 0.36%, 0.37% additives) and total fatty acids (0.67% colistin and 0.97% additives) values in the caecum. The supplementation with different compositions and concentrations of prebiotics and butyric acid may viably replace colistin in controlling diarrhea and modulating volatile fatty acid production in the caecum.
publisher Universidade Federal de Minas Gerais, Escola de Veterinária
publishDate 2020
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-09352020000401449
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