The effect of pectin on in vitro β-carotene bioaccessibility and lipid digestion in low fat emulsions

Verrijssen, Tina A.J.; Verkempinck, S.H.E.; Christiaens, Stefanie; Loey, Ann Van; Hendrickx, Marc

doi:10.1016/j.foodhyd.2015.02.040

Cited by 52 publications

(16 citation statements)

References 35 publications

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“…It seems that the β‐carotene bioaccessibility increased if the lipid digestion increased, although the magnitude to which the increase occurred was different. Both results were also found by Verrijssen and others (). Therefore, the following hypothesis can be stated.…”

Section: Resultssupporting

confidence: 88%

“…First, smaller oil droplets were found in the CP57 emulsion (median ( = D[v; 0.5]) of 1.8 μm and D[v; 0.9] of 4.2 μm) compared to oil droplets in the CP30 emulsion (median of 5.5 μm and D[v; 0.9] of 17.4 μm; Figure A and confirmed by microscopy [results not shown]), so it seems that CP57 had a better emulsifying capacity compared to CP30. Probably in CP57, the block‐wise patterns of hydrophilic and hydrophobic groups of the GalA‐molecules (at pH 6) emulsified better compared to the more hydrophilic molecules in CP30 (Fraeye and others ; Verrijssen and others ). It can be concluded that the DM in the CP emulsions is important for the oil droplet size distribution.…”

Section: Resultsmentioning

confidence: 98%

“…The pectin functional properties differ depending on their structural characteristics (Christiaens and others ,b). For example, the pectin emulsifying capacity has been hypothesized to depend on pectin DM (Verrijssen and others ), pectin DA (Leroux and others ), or attached proteins (Siew and others ).…”

Section: Introductionmentioning

confidence: 99%

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In vitro β‐Carotene Bioaccessibility and Lipid Digestion in Emulsions: Influence of Pectin Type and Degree of Methyl‐Esterification

Verrijssen

Christiaens

Verkempinck

et al. 2016

Journal of Food Science

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Citrus pectin (CP) and sugar beet pectin (SBP) were demethoxylated and fully characterized in terms of pectin properties in order to investigate the influence of the pectin degree of methyl-esterification (DM) and the pectin type on the in vitro β-carotene bioaccessibility and lipid digestion in emulsions. For the CP based emulsions containing β-carotene enriched oil, water and pectin, the β-carotene bioaccessibility, and lipid digestion were higher in the emulsions with pectin with a higher DM (57%; "CP57 emulsion") compared to the emulsions with pectin with a lower DM (30%; "CP30 emulsion") showing that the DM plays an important role. In contrast, in SBP-based emulsions, nor β-carotene bioaccessibility nor lipid digestion were dependent on pectin DM. Probably here, other pectin properties are more important factors. It was observed that β-carotene bioaccessibility and lipid digestion were lower in the CP30 emulsion in comparison with the CP57, SBP32, and SBP58 emulsions. However, the β-carotene bioaccessibility of CP57 emulsion was similar to that of the SBP emulsions, whereas the lipid digestion was not. It seems that pectin type and pectin DM (in case of CP) are determining which components can be incorporated into micelles. Because carotenoids and lipids have different structures and polarities, their incorporation may be different. This knowledge can be used to engineer targeted (digestive) functionalities in food products. If both high β-carotene bioaccessibility and high lipid digestion are targeted, SBP emulsions are the best options. The CP57 emulsion can be chosen if high β-carotene bioaccessibility but lower lipid digestion is desired.

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Section: Resultssupporting

confidence: 88%

Section: Resultsmentioning

confidence: 98%

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In vitro β‐Carotene Bioaccessibility and Lipid Digestion in Emulsions: Influence of Pectin Type and Degree of Methyl‐Esterification

Verrijssen

Christiaens

Verkempinck

et al. 2016

Journal of Food Science

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“…In this regard, the higher DM of pectin in unripe tomatoes could hinder the incorporation of carotenoids into micelles resulting in lower bioaccessibility. Similar results were found by Verrijssen, Verkempinck, Christiaens, Van Loey, and Hendrickx (2015) who reported an increase of the incorporation of β-carotene into the micelles by decreasing the pectin DM of the emulsions. In addition, the depolymerization process could also facilitate the disruption of cell walls during digestion, allowing the release of carotenoids from tomato matrix and promoting their micellar solubilization (Ornelas-Paz et al, 2008).…”

Section: Bioaccessibility Of Carotenoidssupporting

confidence: 90%

In Vitro Bioaccessibility of Colored Carotenoids in Tomato Derivatives as Affected by Ripeness Stage and the Addition of Different Types of Oil

González-Casado

Martı́n-Belloso

Elez-Martı́nez

et al. 2018

Journal of Food Science

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Bioaccessibility of carotenoids is known to be affected by different factors. This study provides useful information about the synergic effect of different factors affecting the amount and the bioaccessible fraction of carotenoids, especially lycopene, in two common tomato derivatives. The findings of this work may contribute to develop tomato derivatives with high content of bioaccessible carotenoids, leading to the enhancement of their health-promoting properties.

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“…Emulsion-based delivery systems can be produced using various emulsification processes and they have been widely used to protect bioactive compounds such as carotenoids from degradation, ameliorate its dispersion in an aqueous media, and increase its bioaccessibility [10][11][12][13][14][15][16]. However, in the last years, oil droplet reduction in the range of 20-500 nm [17] showed several advantages over conventional emulsions.…”

Section: Introductionmentioning

confidence: 99%

Improving the In Vitro Bioaccessibility of β-Carotene Using Pectin Added Nanoemulsions

Teixé-Roig

Oms‐Oliu

Ballesté-Muñoz

et al. 2020

Foods

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The intestinal absorption of lipophilic compounds such as β-carotene has been reported to increase when they are incorporated in emulsion-based delivery systems. Moreover, the reduction of emulsions particle size and the addition of biopolymers in the systems seems to play an important role in the emulsion properties but also in their behavior under gastrointestinal conditions and the absorption of the encapsulated compound in the intestine. Hence, the present study aimed to evaluate the effect of pectin addition (0%, 1%, and 2%) on the physicochemical stability of oil-in-water nanoemulsions containing β-carotene during 35 days at 4 • C, the oil digestibility and the compound bioaccessibility. The results showed that nanoemulsions presented greater stability and lower β-carotene degradation over time in comparison with coarse emulsion, which was further reduced with the addition of pectin. Moreover, nanoemulsions presented a faster digestibility irrespective of the pectin concentration used and a higher β-carotene bioaccessibility as the pectin concentration increased, being the maximum of ≈36% in nanoemulsion with 2% of pectin. These results highlight the potential of adding pectin to β-carotene nanoemulsions to enhance their functionality by efficiently preventing the compound degradation and increasing the in vitro bioaccessibility.

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The effect of pectin on in vitro β-carotene bioaccessibility and lipid digestion in low fat emulsions

Cited by 52 publications

References 35 publications

In vitro β‐Carotene Bioaccessibility and Lipid Digestion in Emulsions: Influence of Pectin Type and Degree of Methyl‐Esterification

In vitro β‐Carotene Bioaccessibility and Lipid Digestion in Emulsions: Influence of Pectin Type and Degree of Methyl‐Esterification

In Vitro Bioaccessibility of Colored Carotenoids in Tomato Derivatives as Affected by Ripeness Stage and the Addition of Different Types of Oil

Improving the In Vitro Bioaccessibility of β-Carotene Using Pectin Added Nanoemulsions

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