Comparative interfacial in vitro digestion of protein and polysaccharide oil/water films

Evolution of the interfacial tension (γ) in the time, during the different stages of in vitro digestion of interfacial films formed at the O/W interface. [Display omitted] •Different behavior among emulsifiers under interfacial digestion was observed.•The main interfacial changes occurred during the...

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Veröffentlicht in:	Colloids and surfaces, B, Biointerfaces B, Biointerfaces, 2018-01, Vol.161, p.547-554
Hauptverfasser:	Bellesi, Fernando A., Ruiz-Henestrosa, Víctor M. Pizones, Maldonado-Valderrama, Julia, Del Castillo Santaella, Teresa, Pilosof, Ana M.R.
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Sprache:	eng
Schlagworte:	Bile salts Digestion Interface Lipolysis
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container_title	Colloids and surfaces, B, Biointerfaces
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creator	Bellesi, Fernando A. Ruiz-Henestrosa, Víctor M. Pizones Maldonado-Valderrama, Julia Del Castillo Santaella, Teresa Pilosof, Ana M.R.
description	Evolution of the interfacial tension (γ) in the time, during the different stages of in vitro digestion of interfacial films formed at the O/W interface. [Display omitted] •Different behavior among emulsifiers under interfacial digestion was observed.•The main interfacial changes occurred during the intestinal stage.•SPI formed the most resistant interface to the remotion of soluble products.•Interactions BS − emulsifiers represent a key factor to modulate lipolysis. The behaviour of proteins (β-lactoglobulin (βlg) and soy protein isolate (SPI)) and a surface active polysaccharide (hydroxypropylmethylcellulose, HPMC) o/w interfacial films under simulated gastrointestinal conditions using the interfacial tensiometer Octopus were compared and related to the performance of the emulsions (using the same emulsifiers) under in vitro digestion. The evolution of interfacial tension (γ) was used to investigate the effect of gastrointestinal fluids on o/w interfacial films. Clear differences were observed among these emulsifiers. During the gastric phase, HPMC showed the lowest change in γ values as compared to protein films. The most important changes occurred during the intestinal stage where it was observed an important decrease of γ associated with the rapid penetration of BS, followed by a lower rate of decrease attributable to the accumulation of FFA at the interface. In the last stage, the subphase was exchanged by buffer alone, to remove the reversibly adsorbed digestion products. SPI formed the most resistant interface to the remotion of digestion products, followed by HPMC and finally by βlg. The results agree with the degree of lipolysis reported for the emulsions stabilized by these emulsifiers, which suggest that lipid digestion could be modulated by the ability of emulsifiers to prevent the BS activity (to adsorb at the O/W interface or remove the inhibitory digestion products from the interface). Thus, emulsifiers-BS interactions appears as a key factor in controlling the lipolysis.
doi_str_mv	10.1016/j.colsurfb.2017.11.027
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The behaviour of proteins (β-lactoglobulin (βlg) and soy protein isolate (SPI)) and a surface active polysaccharide (hydroxypropylmethylcellulose, HPMC) o/w interfacial films under simulated gastrointestinal conditions using the interfacial tensiometer Octopus were compared and related to the performance of the emulsions (using the same emulsifiers) under in vitro digestion. The evolution of interfacial tension (γ) was used to investigate the effect of gastrointestinal fluids on o/w interfacial films. Clear differences were observed among these emulsifiers. During the gastric phase, HPMC showed the lowest change in γ values as compared to protein films. The most important changes occurred during the intestinal stage where it was observed an important decrease of γ associated with the rapid penetration of BS, followed by a lower rate of decrease attributable to the accumulation of FFA at the interface. In the last stage, the subphase was exchanged by buffer alone, to remove the reversibly adsorbed digestion products. SPI formed the most resistant interface to the remotion of digestion products, followed by HPMC and finally by βlg. The results agree with the degree of lipolysis reported for the emulsions stabilized by these emulsifiers, which suggest that lipid digestion could be modulated by the ability of emulsifiers to prevent the BS activity (to adsorb at the O/W interface or remove the inhibitory digestion products from the interface). 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Pizones</creatorcontrib><creatorcontrib>Maldonado-Valderrama, Julia</creatorcontrib><creatorcontrib>Del Castillo Santaella, Teresa</creatorcontrib><creatorcontrib>Pilosof, Ana M.R.</creatorcontrib><title>Comparative interfacial in vitro digestion of protein and polysaccharide oil/water films</title><title>Colloids and surfaces, B, Biointerfaces</title><addtitle>Colloids Surf B Biointerfaces</addtitle><description>Evolution of the interfacial tension (γ) in the time, during the different stages of in vitro digestion of interfacial films formed at the O/W interface. [Display omitted] •Different behavior among emulsifiers under interfacial digestion was observed.•The main interfacial changes occurred during the intestinal stage.•SPI formed the most resistant interface to the remotion of soluble products.•Interactions BS − emulsifiers represent a key factor to modulate lipolysis. The behaviour of proteins (β-lactoglobulin (βlg) and soy protein isolate (SPI)) and a surface active polysaccharide (hydroxypropylmethylcellulose, HPMC) o/w interfacial films under simulated gastrointestinal conditions using the interfacial tensiometer Octopus were compared and related to the performance of the emulsions (using the same emulsifiers) under in vitro digestion. The evolution of interfacial tension (γ) was used to investigate the effect of gastrointestinal fluids on o/w interfacial films. Clear differences were observed among these emulsifiers. During the gastric phase, HPMC showed the lowest change in γ values as compared to protein films. The most important changes occurred during the intestinal stage where it was observed an important decrease of γ associated with the rapid penetration of BS, followed by a lower rate of decrease attributable to the accumulation of FFA at the interface. In the last stage, the subphase was exchanged by buffer alone, to remove the reversibly adsorbed digestion products. SPI formed the most resistant interface to the remotion of digestion products, followed by HPMC and finally by βlg. The results agree with the degree of lipolysis reported for the emulsions stabilized by these emulsifiers, which suggest that lipid digestion could be modulated by the ability of emulsifiers to prevent the BS activity (to adsorb at the O/W interface or remove the inhibitory digestion products from the interface). 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[Display omitted] •Different behavior among emulsifiers under interfacial digestion was observed.•The main interfacial changes occurred during the intestinal stage.•SPI formed the most resistant interface to the remotion of soluble products.•Interactions BS − emulsifiers represent a key factor to modulate lipolysis. The behaviour of proteins (β-lactoglobulin (βlg) and soy protein isolate (SPI)) and a surface active polysaccharide (hydroxypropylmethylcellulose, HPMC) o/w interfacial films under simulated gastrointestinal conditions using the interfacial tensiometer Octopus were compared and related to the performance of the emulsions (using the same emulsifiers) under in vitro digestion. The evolution of interfacial tension (γ) was used to investigate the effect of gastrointestinal fluids on o/w interfacial films. Clear differences were observed among these emulsifiers. During the gastric phase, HPMC showed the lowest change in γ values as compared to protein films. 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subjects	Bile salts Digestion Interface Lipolysis
title	Comparative interfacial in vitro digestion of protein and polysaccharide oil/water films
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