Lipid oxidation in mayonnaise and the role of natural antioxidants: A review

Gorji, Sara Ghorbani; Smyth, Heather E.; Sharma, Mary; Fitzgerald, Melissa

doi:10.1016/j.tifs.2016.08.002

Cited by 109 publications

(76 citation statements)

References 76 publications

(113 reference statements)

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“…Lipid oxidation reactions are generally initiated at the interface between the oil and water, where the droplet surface hydrophobic nutraceutical molecules are easier to degrade when dispersed in nanoemulsions (Ghorbani Gorji et al., 2016). After 42 days of storage, no apparent flocculation or coalescence was observed in any sample tested.…”

Section: Resultsmentioning

confidence: 99%

“…Lipids, typically those with high degree of unsaturation, are susceptible to auto‐oxidation when dispersed in nanoemulsions due to increased surface area with reduced particle size (Yi et al., 2015). As a result, the lipophilic nutraceuticals carried in an oil‐in‐water system can deteriorate due to auto‐oxidation of the unsaturated fatty acids in the oil (Ghorbani Gorji, Smyth, Sharma, & Fitzgerald, 2016). Consistently, Liu, Gao, McClements, and Decker (2016) confirmed the positive correlation between lipid oxidation and the degradation of beta‐carotene in an emulsion.…”

Section: Introductionmentioning

confidence: 99%

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Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Zhou

Wang

et al. 2018

Food Science & Nutrition

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Beta‐carotene, the main dietary source of provitamin A, is required for maintaining optimum human health. The bioaccessibility of beta‐carotene can be greatly improved when ingested with fat. Therefore, the aim of the current study was to select proper oils (palm oil, coconut oil, fish oil, and corn oil) as a carrier to form stable nanoemulsion that can effectively enhance the bioaccessibility of beta‐carotene. The nanoemulsion was formulated with 90% (v/v) aqueous solution (2% whey protein isolate, WPI, w/v) and 10% (v/v) dispersed oil. The in vitro digestion experiment of nanoemulsions showed that the bioaccessibility of beta‐carotene was as followed in order: palm oil = corn oil > fish oil > coconut oil (p < 0.05). The particle size of the nanoemulsion (initial particle size = 168–185 nm) was below 200 nm during 42 days’ storage at 25°C. The retention rates of beta‐carotene in nanoemulsions were 69.36%, 63.81%, 49.58%, and 54.91% with palm oil, coconut oil, fish oil, and corn oil, respectively. However, the particle size of the nanoemulsion increased significantly in the accelerated experiment at 55°C (p < 0.05), in which the retention rates of beta‐carotene were 48.56%, 43.41%, 29.35%, and 33.60% with palm oil, coconut oil, fish oil, and corn oil, respectively. From above, we conclude that WPI‐stabilized beta‐carotene nanoemulsion with palm oil as the carrier is the most suitable system to increase bioaccessibility and stability of lipid‐soluble bioactive compounds such as beta‐carotene.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Zhou

Wang

et al. 2018

Food Science & Nutrition

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“…Many studies have assessed oxidation of such systems and their protection by antioxidants . Nevertheless, to control these phenomena and offer safe and healthy products, studies should not only focus on the efficiency of the antioxidants but also a thorough understanding of the associated chemical mechanisms that occur when many compounds interact in food systems .…”

Section: Introductionmentioning

confidence: 99%

Lipid Oxidation in Oil‐in‐Water Emulsions Rich in Omega‐3: Effect of Aqueous Phase Viscosity, Emulsifiers, and Antioxidants

Pernin

Bosc

Soto

et al. 2019

Euro J Lipid Sci & Tech

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Phenolic compounds offer a solution to limit oxidation and bacterial growth in food products. This study aims to better understand the impact of compositional and structural parameters of o/w emulsions on oxidative stability in several realistic models, composed of fish oil, an aqueous phase supplemented or not with guar gum, and whey proteins or Tween 80 as emulsifiers. Some systems include phenolic antioxidants, alone or in mixture (α‐tocopherol, eugenol, ferulic acid). The presence of guar gum slightly delays oxidation by limiting oxygen transfer from the headspace to the emulsion and within the different compartments of the emulsion. Moreover, oxidation is lower in emulsions formulated with whey proteins, due to their potent interference with oxidation reactions. Ferulic acid shows no antioxidant activity. Eugenol and α‐tocopherol are efficient in emulsions formulated with whey proteins due to their localization in the reactional system and therefore their proximity to oxidation sites. Practical Applications: These results can find practical applications in protecting essential omega‐3 fatty acids with natural phenolic antioxidants in food emulsions. They would also contribute to limit the use of additives in food by promoting synergistic actions of phenolic compounds with complementary antioxidant mechanisms. At least, they could offer a sustainable valorization of by‐products from agro‐industry by producing ingredients rich in phenolic compounds, not only having antioxidant properties but also antibacterial effects. The nature and partition of emulsifier (whey proteins, Tween 80), thickener (guar gum), and antioxidant (ferulic acid, α‐tocopherol and/or eugenol) play a major role in the oxidation kinetics of omega‐3 polyunsaturated fatty acids in o/w emulsions.

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“…A critical ingredient for physical stabilization of this emulsion is egg yolk, which has a high content of surface‐active phospholipids and proteins. The shelf life of mayonnaise is compromised by oxidation of the unsaturated fatty acids that ultimately generate rancid off‐flavours . The enhanced oxidation of unsaturated lipids in mayonnaise has been attributed to the pro‐oxidative catalytic role of iron .…”

Section: Introductionmentioning

confidence: 99%

“…An effective route to inhibit lipid oxidation in mayonnaise is the removal of iron from the Fe(III)‐phosvitin complex by adding a strong chelator such as ethylenediaminetetraacetic acid (EDTA), which has a higher binding strength to Fe(III), log K = 25, than phosvitin (log K = 18–21) . Other routes to inhibit lipid oxidation involve antioxidants that are hypothesized to either directly interact with the free‐radical process or inhibit the activity of pro‐oxidants …”

Section: Introductionmentioning

confidence: 99%

³¹P NMR assessment of the phosvitin‐iron complex in mayonnaise

Merkx

Delić

Wierenga

et al. 2018

Magnetic Reson in Chemistry

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Lipid oxidation is the main reason for the limited shelf life of mayonnaise. One of the main catalysts of this process is iron, which is introduced in its ferric (Fe(III)) form via phosvitin, an egg yolk phosphoprotein rich in phosphoserines. The binding of Fe(III) to phosvitin and its ability to establish a redox couple with Fe(II) is believed to determine the oxidation rate of unsaturated lipids. In this work, a 31P NMR based method was developed to quantify loading of phosvitin with Fe(III) and its reductive release. Both features could be quantified in model phosvitin solutions by exploiting the paramagnetic broadening of 31P NMR signal of phosphoserine residues by Fe(III). This method was then successfully applied to quantify the phosvitin‐Fe(III) loading in mayonnaise water phase by liquid NMR, whereas 31P NMR MAS could only provide a qualitative measure. The 31P NMR method showed a direct relation between loading of the Fe(III)‐phosvitin complex and lipid oxidation.

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Lipid oxidation in mayonnaise and the role of natural antioxidants: A review

Cited by 109 publications

References 76 publications

Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Lipid Oxidation in Oil‐in‐Water Emulsions Rich in Omega‐3: Effect of Aqueous Phase Viscosity, Emulsifiers, and Antioxidants

³¹P NMR assessment of the phosvitin‐iron complex in mayonnaise

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Lipid oxidation in mayonnaise and the role of natural antioxidants: A review

Cited by 109 publications

References 76 publications

Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Stability and in vitro digestibility of beta‐carotene in nanoemulsions fabricated with different carrier oils

Lipid Oxidation in Oil‐in‐Water Emulsions Rich in Omega‐3: Effect of Aqueous Phase Viscosity, Emulsifiers, and Antioxidants

31P NMR assessment of the phosvitin‐iron complex in mayonnaise

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³¹P NMR assessment of the phosvitin‐iron complex in mayonnaise