A Rat Model of Human Lipid Emulsion Digestion

A Rat Model of Human Lipid Emulsion Digestion

A better understanding of how dietary lipids are processed by the human body is necessary to allow for the control of satiation and energy intake by tailored lipid systems. To examine whether rats are a valid model of human dietary lipid processing and therefore useful for further mechanistic studie...

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Main Authors: Andreas Steingoetter, Myrtha Arnold, Nathalie Scheuble, Shahana Fedele, Pascal Bertsch, Dian Liu, Helen L. Parker, Wolfgang Langhans, Peter Fischer
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-11-01
Series:Frontiers in Nutrition
Subjects:
lipid emulsion systems
fat digestion
animal model
gastric emptying
gastrointestinal hormones
satiation
Online Access:https://www.frontiersin.org/article/10.3389/fnut.2019.00170/full
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spelling doaj-8f497c981dd64e608bf875304ce1e82f2020-11-25T01:43:54ZengFrontiers Media S.A.Frontiers in Nutrition2296-861X2019-11-01610.3389/fnut.2019.00170483897A Rat Model of Human Lipid Emulsion DigestionAndreas Steingoetter0Andreas Steingoetter1Myrtha Arnold2Nathalie Scheuble3Shahana Fedele4Pascal Bertsch5Dian Liu6Helen L. Parker7Helen L. Parker8Helen L. Parker9Wolfgang Langhans10Peter Fischer11Division of Gastroenterology and Hepatology, University Hospital Zurich, Zurich, SwitzerlandDepartment of Information Technology and Electrical Engineering, Institute for Biomedical Engineering, University and ETH Zurich, Zurich, SwitzerlandPhysiology and Behavior Laboratory, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandLaboratory of Food Process Engineering, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandPhysiology and Behavior Laboratory, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandLaboratory of Food Process Engineering, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandDepartment of Information Technology and Electrical Engineering, Institute for Biomedical Engineering, University and ETH Zurich, Zurich, SwitzerlandDivision of Gastroenterology and Hepatology, University Hospital Zurich, Zurich, SwitzerlandSchool of Medicine, Pharmacy and Health, Durham University, Durham, United KingdomInstitute of Health and Society, Newcastle University, Durham, United KingdomPhysiology and Behavior Laboratory, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandLaboratory of Food Process Engineering, Department of Health Sciences and Technology, Institute of Food Nutrition and Health, ETH Zurich, Zurich, SwitzerlandA better understanding of how dietary lipids are processed by the human body is necessary to allow for the control of satiation and energy intake by tailored lipid systems. To examine whether rats are a valid model of human dietary lipid processing and therefore useful for further mechanistic studies in this context, we tested in rats three lipid emulsions of different stability, which alter satiety responses in humans. Different sets of 15 adult male Sprague Dawley rats, equipped with gastric catheters alone or combined with hepatic portal vein (HPV) and vena cava (VC) catheters were maintained on a medium-fat diet and adapted to an 8 h deprivation/16 h feeding schedule. Experiments were performed in a randomized cross-over study design. After gastric infusion of the lipid emulsions, we assessed gastric emptying by the paracetamol absorption test and recorded in separate experiments food intake and plasma levels of gastrointestinal hormones and metabolites in the HPV. For an acid stable emulsion, slower gastric emptying and an enhanced release of satiating gastrointestinal (GI) hormones were observed and were associated with lower short-term energy intake in rats and less hunger in humans, respectively. The magnitude of hormonal responses was related to the acid stability and redispersibility of the emulsions and thus seems to depend on the availability of lipids for digestion. Plasma metabolite levels were unaffected by the emulsion induced changes in lipolysis. The results support that structured lipid systems are digested similarly in rats and humans. Thus unstable emulsions undergo the same intragastric destabilization in both species, i.e., increased droplet size and creaming. This work establishes the rat as a viable animal model for in vivo studies on the control of satiation and energy intake by tailored lipid systems.https://www.frontiersin.org/article/10.3389/fnut.2019.00170/fulllipid emulsion systemsfat digestionanimal modelgastric emptyinggastrointestinal hormonessatiation
collection DOAJ
language English
format Article
sources DOAJ
author Andreas Steingoetter
Andreas Steingoetter
Myrtha Arnold
Nathalie Scheuble
Shahana Fedele
Pascal Bertsch
Dian Liu
Helen L. Parker
Helen L. Parker
Helen L. Parker
Wolfgang Langhans
Peter Fischer
spellingShingle Andreas Steingoetter
Andreas Steingoetter
Myrtha Arnold
Nathalie Scheuble
Shahana Fedele
Pascal Bertsch
Dian Liu
Helen L. Parker
Helen L. Parker
Helen L. Parker
Wolfgang Langhans
Peter Fischer
A Rat Model of Human Lipid Emulsion Digestion
Frontiers in Nutrition
lipid emulsion systems
fat digestion
animal model
gastric emptying
gastrointestinal hormones
satiation
author_facet Andreas Steingoetter
Andreas Steingoetter
Myrtha Arnold
Nathalie Scheuble
Shahana Fedele
Pascal Bertsch
Dian Liu
Helen L. Parker
Helen L. Parker
Helen L. Parker
Wolfgang Langhans
Peter Fischer
author_sort Andreas Steingoetter
title A Rat Model of Human Lipid Emulsion Digestion
title_short A Rat Model of Human Lipid Emulsion Digestion
title_full A Rat Model of Human Lipid Emulsion Digestion
title_fullStr A Rat Model of Human Lipid Emulsion Digestion
title_full_unstemmed A Rat Model of Human Lipid Emulsion Digestion
title_sort rat model of human lipid emulsion digestion
publisher Frontiers Media S.A.
series Frontiers in Nutrition
issn 2296-861X
publishDate 2019-11-01
description A better understanding of how dietary lipids are processed by the human body is necessary to allow for the control of satiation and energy intake by tailored lipid systems. To examine whether rats are a valid model of human dietary lipid processing and therefore useful for further mechanistic studies in this context, we tested in rats three lipid emulsions of different stability, which alter satiety responses in humans. Different sets of 15 adult male Sprague Dawley rats, equipped with gastric catheters alone or combined with hepatic portal vein (HPV) and vena cava (VC) catheters were maintained on a medium-fat diet and adapted to an 8 h deprivation/16 h feeding schedule. Experiments were performed in a randomized cross-over study design. After gastric infusion of the lipid emulsions, we assessed gastric emptying by the paracetamol absorption test and recorded in separate experiments food intake and plasma levels of gastrointestinal hormones and metabolites in the HPV. For an acid stable emulsion, slower gastric emptying and an enhanced release of satiating gastrointestinal (GI) hormones were observed and were associated with lower short-term energy intake in rats and less hunger in humans, respectively. The magnitude of hormonal responses was related to the acid stability and redispersibility of the emulsions and thus seems to depend on the availability of lipids for digestion. Plasma metabolite levels were unaffected by the emulsion induced changes in lipolysis. The results support that structured lipid systems are digested similarly in rats and humans. Thus unstable emulsions undergo the same intragastric destabilization in both species, i.e., increased droplet size and creaming. This work establishes the rat as a viable animal model for in vivo studies on the control of satiation and energy intake by tailored lipid systems.
topic lipid emulsion systems
fat digestion
animal model
gastric emptying
gastrointestinal hormones
satiation
url https://www.frontiersin.org/article/10.3389/fnut.2019.00170/full
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