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Dietary Fibre, Gut Sensing and Modulation of Feed Intake in Pigs and Chickens

Published: June 1, 2020
By: E. Roura / Centre for Nutrition and Food Sciences, Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, Hartley Teakle 83, room S435, St Lucia, QLD 4072, Australia.
Summary

Abstract

Architectural and functional changes in the gastrointestinal tract (GIT) following high-fibre diets have been associated with changes in the digestibility of nutrients, in turn affecting the chemosensory mechanisms that orchestrate the hunger-satiety cycle in mammals and birds. Dietary fibre (DF) has been associated with a reduction of the area of absorption and the hydrolytic capacity of the intestinal epithelium. In addition, DF increases the differentiation of stem cells into goblet/secretory cells in detriment of other epithelial cells including enterocytes. As a result, the activity of brush border enzymes declines. This advocates for exogenous enzyme supplementation particularly in high-fibre diets in chicken and pigs. Furthermore, viscous DF prolongs small intestinal transit time and slows down the release and absorption of nutrients. As a consequence, DF causes fluctuations in nutrient availability and sensing along the GIT in non-ruminant animals. These effects, in turn, alter the release patterns of gut peptides (cholecystokinin -CCK-, glucose-dependent insulinotropic polypeptide -GIP-, glucagon like peptide-1 -GLP-1- and peptide tyrosine tyrosine -PYY-). Changes in the sensing mechanism are particularly important for fatty acids (FA) and amino acids (AA) relevant to the enteroendocrine system. The interaction between DF and the chemosensory system needs to be put in context of recent knowledge on feedback signals from the large intestine microbiome. Amongst potential practical applications, this review highlights the role of GIP in adiposity and how that can be used in fattening pigs to help reduce back fat deposition. Some of the more significant effects of DF can be reversed by dietary addition of exogenous enzymes.

 

Presented at the International Fibre Summit 2019 (https://internationalfibre.com/). Reproduced with permission from the organizers.

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Authors:
Eugeni Roura
University of Queensland
University of Queensland
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Kapil Manwal
Lallemand
3 de agosto de 2020

Dietary fibre is important and yes, I like the article, but one point needs to add which type of fibre is also important. And yes, fiber helps in modulation of intestinal microbiota and good fibre like sunflower meal fibre helps in the reduction of pathogens. Fibre is important for feeding microbiota it may not have any nutritive value, but plays an important role in the gut.

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kevin omwenga
8 de julio de 2020
In large animals like cattle dietary fibre can likely alter the essential fatty acid like propionic and butyric acid production by the microflora that can directly affect the quality and quantity of milk produced at any given time. I am so thankful for this article since am a pig farmer and a nutritionist by profession. reminding me of the importance of df has kicked in a new way to formulate my feeds
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Syed Farjad Zaidi
8 de julio de 2020

It took about 10 years to come into line light the role of monogastric animals. As the genetics is progressing towards lean birds high appetite
Fantastic FCR and nutrient utilization to counter balancing the effect, slowing down the passage rate for better absorption and increasing gut size for enhanced gut surface area for improved absorption.
As nutritionist are focusing fiber solubilization as a source of energy. Lets see what comes next

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