Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability

Edible films made with gellan (deacylated) gum to carry l-(+)-ascorbic acid (AA) were formulated either in mixture with gellan acylated form or by addition of calcium ion. AA-stability and the subsequent non-enzymatic browning (NEB) development were evaluated during storage at 33.3%, 57.7% or 75.2%...

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Autores principales: León, Paula Gabriela Verónica, Lamanna, Melisa Elsa, Gerschenson, Lía Noemí, Rojas, Ana María Luisa
Publicado: 2008
Materias:
Ascorbic acid
Browning
Calcium
Edible film
Gellan gum
Water
Addition reactions
Atmospherics
Calcium alloys
Chemical reactions
Computer networks
Glycerol
Ketones
Mechanical stability
Meteorology
Metropolitan area networks
Mixtures
Moisture
Network protocols
Offshore oil well production
Organic acids
Polymer films
Polymers
Silicones
Storage (materials)
System stability
Water content
Accelerating effects
Ascorbic acid (ASC)
Browning reactions
Calcium ion (Ca)
Edible films
Elsevier (CO)
General (CO)
Macromolecular networks
Mechanical characteristics
Non enzymatic browning (NEB)
Polymer mixtures
Polymeric networks
Relative humidity (RH)
side chains
Atmospheric humidity
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09639969_v41_n6_p667_Leon
http://hdl.handle.net/20.500.12110/paper_09639969_v41_n6_p667_Leon
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling paper:paper_09639969_v41_n6_p667_Leon2023-06-08T15:58:25Z Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability León, Paula Gabriela Verónica Lamanna, Melisa Elsa Gerschenson, Lía Noemí Rojas, Ana María Luisa Ascorbic acid Browning Calcium Edible film Gellan gum Water Addition reactions Atmospherics Calcium Calcium alloys Chemical reactions Computer networks Glycerol Ketones Mechanical stability Meteorology Metropolitan area networks Mixtures Moisture Network protocols Offshore oil well production Organic acids Polymer films Polymers Silicones Storage (materials) System stability Water content Accelerating effects Ascorbic acid (ASC) Browning reactions Calcium ion (Ca) Edible films Elsevier (CO) General (CO) Macromolecular networks Mechanical characteristics Non enzymatic browning (NEB) Polymer mixtures Polymeric networks Relative humidity (RH) side chains Atmospheric humidity Edible films made with gellan (deacylated) gum to carry l-(+)-ascorbic acid (AA) were formulated either in mixture with gellan acylated form or by addition of calcium ion. AA-stability and the subsequent non-enzymatic browning (NEB) development were evaluated during storage at 33.3%, 57.7% or 75.2% relative humidity and 25 °C. Presence of acyl-side chains in the gellan backbone led to a less rigid macromolecular network of the polymer mixture, which allowed lowering glycerol content, obtaining higher AA retention and lower NEB development with adequate mechanical characteristics of films. Otherwise, additional calcium presence in deacylated gellan film slowed down the browning development at the highest relative humidity of storage (75.2%). In general, it was observed an accelerating effect of local moisture mainly on non enzymic browning reactions, as well as the compromise of the film water content in plasticization of the polymeric networks when stored at 33.3% or 57.7% relative humidity. © 2008 Elsevier Ltd. All rights reserved. Fil:León, P.G. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Lamanna, M.E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Gerschenson, L.N. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Rojas, A.M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2008 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09639969_v41_n6_p667_Leon http://hdl.handle.net/20.500.12110/paper_09639969_v41_n6_p667_Leon
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Ascorbic acid
Browning
Calcium
Edible film
Gellan gum
Water
Addition reactions
Atmospherics
Calcium
Calcium alloys
Chemical reactions
Computer networks
Glycerol
Ketones
Mechanical stability
Meteorology
Metropolitan area networks
Mixtures
Moisture
Network protocols
Offshore oil well production
Organic acids
Polymer films
Polymers
Silicones
Storage (materials)
System stability
Water content
Accelerating effects
Ascorbic acid (ASC)
Browning reactions
Calcium ion (Ca)
Edible films
Elsevier (CO)
General (CO)
Macromolecular networks
Mechanical characteristics
Non enzymatic browning (NEB)
Polymer mixtures
Polymeric networks
Relative humidity (RH)
side chains
Atmospheric humidity
spellingShingle Ascorbic acid
Browning
Calcium
Edible film
Gellan gum
Water
Addition reactions
Atmospherics
Calcium
Calcium alloys
Chemical reactions
Computer networks
Glycerol
Ketones
Mechanical stability
Meteorology
Metropolitan area networks
Mixtures
Moisture
Network protocols
Offshore oil well production
Organic acids
Polymer films
Polymers
Silicones
Storage (materials)
System stability
Water content
Accelerating effects
Ascorbic acid (ASC)
Browning reactions
Calcium ion (Ca)
Edible films
Elsevier (CO)
General (CO)
Macromolecular networks
Mechanical characteristics
Non enzymatic browning (NEB)
Polymer mixtures
Polymeric networks
Relative humidity (RH)
side chains
Atmospheric humidity
León, Paula Gabriela Verónica
Lamanna, Melisa Elsa
Gerschenson, Lía Noemí
Rojas, Ana María Luisa
Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
topic_facet Ascorbic acid
Browning
Calcium
Edible film
Gellan gum
Water
Addition reactions
Atmospherics
Calcium
Calcium alloys
Chemical reactions
Computer networks
Glycerol
Ketones
Mechanical stability
Meteorology
Metropolitan area networks
Mixtures
Moisture
Network protocols
Offshore oil well production
Organic acids
Polymer films
Polymers
Silicones
Storage (materials)
System stability
Water content
Accelerating effects
Ascorbic acid (ASC)
Browning reactions
Calcium ion (Ca)
Edible films
Elsevier (CO)
General (CO)
Macromolecular networks
Mechanical characteristics
Non enzymatic browning (NEB)
Polymer mixtures
Polymeric networks
Relative humidity (RH)
side chains
Atmospheric humidity
description Edible films made with gellan (deacylated) gum to carry l-(+)-ascorbic acid (AA) were formulated either in mixture with gellan acylated form or by addition of calcium ion. AA-stability and the subsequent non-enzymatic browning (NEB) development were evaluated during storage at 33.3%, 57.7% or 75.2% relative humidity and 25 °C. Presence of acyl-side chains in the gellan backbone led to a less rigid macromolecular network of the polymer mixture, which allowed lowering glycerol content, obtaining higher AA retention and lower NEB development with adequate mechanical characteristics of films. Otherwise, additional calcium presence in deacylated gellan film slowed down the browning development at the highest relative humidity of storage (75.2%). In general, it was observed an accelerating effect of local moisture mainly on non enzymic browning reactions, as well as the compromise of the film water content in plasticization of the polymeric networks when stored at 33.3% or 57.7% relative humidity. © 2008 Elsevier Ltd. All rights reserved.
author León, Paula Gabriela Verónica
Lamanna, Melisa Elsa
Gerschenson, Lía Noemí
Rojas, Ana María Luisa
author_facet León, Paula Gabriela Verónica
Lamanna, Melisa Elsa
Gerschenson, Lía Noemí
Rojas, Ana María Luisa
author_sort León, Paula Gabriela Verónica
title Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
title_short Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
title_full Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
title_fullStr Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
title_full_unstemmed Influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
title_sort influence of composition of edible films based on gellan polymers on l-(+)-ascorbic acid stability
publishDate 2008
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09639969_v41_n6_p667_Leon
http://hdl.handle.net/20.500.12110/paper_09639969_v41_n6_p667_Leon
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AT lamannamelisaelsa influenceofcompositionofediblefilmsbasedongellanpolymersonlascorbicacidstability
AT gerschensonlianoemi influenceofcompositionofediblefilmsbasedongellanpolymersonlascorbicacidstability
AT rojasanamarialuisa influenceofcompositionofediblefilmsbasedongellanpolymersonlascorbicacidstability
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