The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein

This study explores the influence of carboxymethylcelullose (CMC) and methylcelullose (MC), added by simultaneous (sim) and sequential (seq) emulsification methods, on the structure, rheological parameters and in vitro lipid digestibility of pork lard O/W emulsions stabilized by soy protein concentr...

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Autores principales: Cofrades, Susana, Saiz, Arancha, Pérez-Mateos, Miriam, Garcimartín, Alba, Redondo-Castillejo, Rocío, Bocanegra, Aranzazu, Benedí, Juana, Álvarez, María Dolores
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8909280/
https://www.ncbi.nlm.nih.gov/pubmed/35267370
http://dx.doi.org/10.3390/foods11050738
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author Cofrades, Susana
Saiz, Arancha
Pérez-Mateos, Miriam
Garcimartín, Alba
Redondo-Castillejo, Rocío
Bocanegra, Aranzazu
Benedí, Juana
Álvarez, María Dolores
author_facet Cofrades, Susana
Saiz, Arancha
Pérez-Mateos, Miriam
Garcimartín, Alba
Redondo-Castillejo, Rocío
Bocanegra, Aranzazu
Benedí, Juana
Álvarez, María Dolores
author_sort Cofrades, Susana
collection PubMed
description This study explores the influence of carboxymethylcelullose (CMC) and methylcelullose (MC), added by simultaneous (sim) and sequential (seq) emulsification methods, on the structure, rheological parameters and in vitro lipid digestibility of pork lard O/W emulsions stabilized by soy protein concentrate (SPC). Five emulsions (SPC, SPC/CMC-sim, SPC/CMC-seq SPC/MC-sim, SPC/MC-seq) were prepared in vitro. The presence of CMC and MC, and the stage of incorporation affected the emulsion microstructure. In the SPC emulsion, lipid droplets were entrapped by a protein layer that was thicker when MC was added, providing greater resistance against environmental stresses during gastrointestinal digestion. At 37 °C, CMC incorporation produced a structural reinforcement of the SPC emulsion, whereas MC addition did not affect the network rigidity, although a delaying effect on the crossover temperature was observed, which was more evident in SPC/MC–seq. The presence and stage of CMC and MC incorporation affected the rate and extent of lipolysis, with SPC/MC-seq presenting an inferior concentration of free fatty acids. The lower extent of lipolysis observed in SPC/MC-seq may be positive in the manufacture of animal fat products in which reduced fatty acid absorption is intended.
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spelling pubmed-89092802022-03-11 The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein Cofrades, Susana Saiz, Arancha Pérez-Mateos, Miriam Garcimartín, Alba Redondo-Castillejo, Rocío Bocanegra, Aranzazu Benedí, Juana Álvarez, María Dolores Foods Article This study explores the influence of carboxymethylcelullose (CMC) and methylcelullose (MC), added by simultaneous (sim) and sequential (seq) emulsification methods, on the structure, rheological parameters and in vitro lipid digestibility of pork lard O/W emulsions stabilized by soy protein concentrate (SPC). Five emulsions (SPC, SPC/CMC-sim, SPC/CMC-seq SPC/MC-sim, SPC/MC-seq) were prepared in vitro. The presence of CMC and MC, and the stage of incorporation affected the emulsion microstructure. In the SPC emulsion, lipid droplets were entrapped by a protein layer that was thicker when MC was added, providing greater resistance against environmental stresses during gastrointestinal digestion. At 37 °C, CMC incorporation produced a structural reinforcement of the SPC emulsion, whereas MC addition did not affect the network rigidity, although a delaying effect on the crossover temperature was observed, which was more evident in SPC/MC–seq. The presence and stage of CMC and MC incorporation affected the rate and extent of lipolysis, with SPC/MC-seq presenting an inferior concentration of free fatty acids. The lower extent of lipolysis observed in SPC/MC-seq may be positive in the manufacture of animal fat products in which reduced fatty acid absorption is intended. MDPI 2022-03-02 /pmc/articles/PMC8909280/ /pubmed/35267370 http://dx.doi.org/10.3390/foods11050738 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Cofrades, Susana
Saiz, Arancha
Pérez-Mateos, Miriam
Garcimartín, Alba
Redondo-Castillejo, Rocío
Bocanegra, Aranzazu
Benedí, Juana
Álvarez, María Dolores
The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title_full The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title_fullStr The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title_full_unstemmed The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title_short The Influence of Cellulose Ethers on the Physico-Chemical Properties, Structure and Lipid Digestibility of Animal Fat Emulsions Stabilized by Soy Protein
title_sort influence of cellulose ethers on the physico-chemical properties, structure and lipid digestibility of animal fat emulsions stabilized by soy protein
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8909280/
https://www.ncbi.nlm.nih.gov/pubmed/35267370
http://dx.doi.org/10.3390/foods11050738
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