Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties

Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties

By-products of fruit and vegetable processing are an inexpensive and sustainable source of dietary fiber, potentially offering valuable functional properties such as water binding and thickening. Due to these favorable properties, they can be utilized to reformulate widely-consumed foods, e.g., bake...

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Main Authors: Vera Schmid, Antje Trabert, Judith Schäfer, Mirko Bunzel, Heike P. Karbstein, M. Azad Emin
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Foods
Subjects:
upcycling
valorization
by-products
dietary fiber
plant cell wall
non-starch polysaccharides
Online Access:https://www.mdpi.com/2304-8158/9/10/1385
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spelling doaj-57af4d327c10423aa760a44687c567142020-11-25T03:18:18ZengMDPI AGFoods2304-81582020-10-0191385138510.3390/foods9101385Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional PropertiesVera Schmid0Antje Trabert1Judith Schäfer2Mirko Bunzel3Heike P. Karbstein4M. Azad Emin5Institute of Process Engineering in Life Sciences, Chair of Food Process Engineering, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyInstitute of Applied Biosciences, Department of Food Chemistry and Phytochemistry, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyInstitute of Applied Biosciences, Department of Food Chemistry and Phytochemistry, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyInstitute of Applied Biosciences, Department of Food Chemistry and Phytochemistry, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyInstitute of Process Engineering in Life Sciences, Chair of Food Process Engineering, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyInstitute of Process Engineering in Life Sciences, Chair of Food Process Engineering, Karlsruhe Institute of Technology (KIT), 76131 Karlsruhe, GermanyBy-products of fruit and vegetable processing are an inexpensive and sustainable source of dietary fiber, potentially offering valuable functional properties such as water binding and thickening. Due to these favorable properties, they can be utilized to reformulate widely-consumed foods, e.g., bakery products or beverages. In this study, apple pomace was used as a model system to study whether extrusion technology affects food by-product functionality and thus has the potential to broaden the application of by-products in foods. The effect of the process parameters and the extent of thermo-mechanical treatment on the structural and functional properties of apple pomace were analyzed after extrusion trials using various screw speeds, water contents, and barrel temperatures. Compared to the raw material, apple pomace extruded at <i>T</i><sub>barrel</sub> = 100 °C, <i>n</i> = 700 min<sup>−1</sup> and <i>m</i><sub>H2O</sub> = 17% showed an increased water solubility up to 33%. The water absorption increased from 5 to 19 Pa·s and the paste viscosity from 5 to 339 Pa·s by extrusion processing. Analyses of dietary fiber contents and fiber polysaccharide structures revealed that thermo-mechanical stress (<i>n</i> = 700 min<sup>−1</sup>, <i>m</i><sub>H2O</sub> = 22%) increased the content of soluble dietary fiber from 12.5 to 16.7 g/100 g dry matter, and that the harshest conditions even enabled the formation of low-molecular-weight dietary fiber. Arabinans (as neutral rhamnogalacturonan I side chains) appeared to be most sensitive to thermo-mechanical stress, whereas xylans (i.e., a group of minor polysaccharides) were an example of a more stable fiber polysaccharide. Also, the degree of methylation of the pectic polysaccharides was strongly reduced from 50% to 15% when thermo-mechanical stress was applied. Imaging and pore size analysis showed that extrusion processing could disrupt the rigid cell wall macromolecular structure.https://www.mdpi.com/2304-8158/9/10/1385upcyclingvalorizationby-productsdietary fiberplant cell wallnon-starch polysaccharides
collection DOAJ
language English
format Article
sources DOAJ
author Vera Schmid
Antje Trabert
Judith Schäfer
Mirko Bunzel
Heike P. Karbstein
M. Azad Emin
spellingShingle Vera Schmid
Antje Trabert
Judith Schäfer
Mirko Bunzel
Heike P. Karbstein
M. Azad Emin
Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
Foods
upcycling
valorization
by-products
dietary fiber
plant cell wall
non-starch polysaccharides
author_facet Vera Schmid
Antje Trabert
Judith Schäfer
Mirko Bunzel
Heike P. Karbstein
M. Azad Emin
author_sort Vera Schmid
title Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
title_short Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
title_full Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
title_fullStr Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
title_full_unstemmed Modification of Apple Pomace by Extrusion Processing: Studies on the Composition, Polymer Structures, and Functional Properties
title_sort modification of apple pomace by extrusion processing: studies on the composition, polymer structures, and functional properties
publisher MDPI AG
series Foods
issn 2304-8158
publishDate 2020-10-01
description By-products of fruit and vegetable processing are an inexpensive and sustainable source of dietary fiber, potentially offering valuable functional properties such as water binding and thickening. Due to these favorable properties, they can be utilized to reformulate widely-consumed foods, e.g., bakery products or beverages. In this study, apple pomace was used as a model system to study whether extrusion technology affects food by-product functionality and thus has the potential to broaden the application of by-products in foods. The effect of the process parameters and the extent of thermo-mechanical treatment on the structural and functional properties of apple pomace were analyzed after extrusion trials using various screw speeds, water contents, and barrel temperatures. Compared to the raw material, apple pomace extruded at <i>T</i><sub>barrel</sub> = 100 °C, <i>n</i> = 700 min<sup>−1</sup> and <i>m</i><sub>H2O</sub> = 17% showed an increased water solubility up to 33%. The water absorption increased from 5 to 19 Pa·s and the paste viscosity from 5 to 339 Pa·s by extrusion processing. Analyses of dietary fiber contents and fiber polysaccharide structures revealed that thermo-mechanical stress (<i>n</i> = 700 min<sup>−1</sup>, <i>m</i><sub>H2O</sub> = 22%) increased the content of soluble dietary fiber from 12.5 to 16.7 g/100 g dry matter, and that the harshest conditions even enabled the formation of low-molecular-weight dietary fiber. Arabinans (as neutral rhamnogalacturonan I side chains) appeared to be most sensitive to thermo-mechanical stress, whereas xylans (i.e., a group of minor polysaccharides) were an example of a more stable fiber polysaccharide. Also, the degree of methylation of the pectic polysaccharides was strongly reduced from 50% to 15% when thermo-mechanical stress was applied. Imaging and pore size analysis showed that extrusion processing could disrupt the rigid cell wall macromolecular structure.
topic upcycling
valorization
by-products
dietary fiber
plant cell wall
non-starch polysaccharides
url https://www.mdpi.com/2304-8158/9/10/1385
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