Your search keyword '"Van der Meeren, P."' showing total 14 results

1. Protection of polyunsaturated oils against ruminal biohydrogenation and oxidation during storage using a polyphenol oxidase containing extract from red clover

Author

Gadeyne, F., primary, Van Ranst, G., additional, Vlaeminck, B., additional, Vossen, E., additional, Van der Meeren, P., additional, and Fievez, V., additional

Published

2015

2. The structural, antioxidant and emulsifying properties of cellulose nanofiber-dihydromyricetin mixtures: Effects of composite ratio.

Author

Fang F, Tian Z, Cai Y, Huang L, Van der Meeren P, and Wang J

Subjects

Particle Size, Emulsifying Agents chemistry, Oxidation-Reduction, Viscosity, Cellulose chemistry, Antioxidants chemistry, Flavonols chemistry, Nanofibers chemistry, Emulsions chemistry

Abstract

In this work, effects of cellulose nanofiber/dihydromyricetin (CNF/DMY) ratio on the structural, antioxidant and emulsifying properties of the CNF/DMY mixtures were investigated. CNF integrated with DMY via hydrogen bonding and the antioxidant capacity of mixtures increased with decreasing CNF/DMY ratio (k). The oxidative stability of emulsions enhanced as the DMY content increased. Emulsions formed at Φ = 0.5 displayed larger size (about 25 μm), better viscoelasticity and centrifugal stability than those at Φ = 0.3 (about 23 μm). The emulsions at k = 17:3 and Φ = 0.5 exhibited the most excellent viscoelasticity. In conclusion, the DMY content in mixtures and the oil phase fraction exhibited distinct synergistic effects on the formation and characteristics of emulsions, and the emulsions could demonstrate superior oxidative and storage stability. These findings could provide a novel strategy to extend the shelf life of cellulose-based emulsions and related products., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

3. Destabilization of a model O/W/O double emulsion: From bulk to interface.

Author

Zhi Z, Li H, Geurs I, Lewille B, Liu R, Van der Meeren P, Dewettinck K, and van Bockstaele F

Subjects

Emulsions chemistry, Water chemistry, Surface Tension, Polysorbates chemistry, Surface-Active Agents chemistry

Abstract

Oil-in-water-in-oil (O/W/O) double emulsions are considered an advanced oil-structuring technology that can accomplish multi-functions to improve food quality and nutrition. However, this special structure is thermodynamically unstable. This study formulated a model O/W/O double emulsion with standard surfactants, Tween 80 (4 %) and polyglycerol polyricinoleate (PGPR, 5 %), using a traditional two-step method with different homogenization parameters. Cryo-SEM and GC-FID results show that O/W/O emulsions were successfully formulated, and the release rate (RR) of medium-chain triglycerides (MCT) oil from the inner oil to the outer oil phase increased significantly with 2 nd homogenization speed increasing, respectively. Interestingly, the RR of all samples reached about 75 % after 2 months of storage, suggesting that O/W/O emulsions were highly unstable. To explain the observed instability, dynamic interfacial tension and interfacial rheology were performed using a drop shape tensiometer. Results demonstrated that unadsorbed Tween 80 in the intermediate aqueous phase was a key factor in markedly decreasing the interfacial properties of the outer PGPR-assembled film by affecting the interfacial rearrangement. Additionally, it was found that the MCT release showed a positive correlation with the Tween 80 concentration, demonstrating that the formed Tween 80 micelles could transport oil molecules to strengthen the emulsion instability. Taken together, this study reveals the destabilization mechanism of model O/W/O surfactants-stabilized emulsions from bulk to interface, providing highly relevant insights for the design of stable O/W/O double emulsions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

4. Characteristics of insoluble soybean fiber (ISF) concentrated emulsions: Effects of pretreatment on ISF and freeze-thaw stability of emulsions.

Author

Cai Y, Huang L, Zhou F, Zhao Q, Zhao M, and Van der Meeren P

Subjects

Emulsions chemistry, Freezing, Temperature, Osmolar Concentration, Glycine max

Abstract

The properties of emulsions could be affected by the interactions between the components and network stabilization effect, which are commonly adjusted by changes in pH, ionic strength and temperature. In this work, insoluble soybean fiber (ISF) obtained via homogenization after alkaline treatment was pretreated firstly and then resultant emulsions were freeze-thawed. Heating pretreatment reduced droplet size, enhanced viscosity and viscoelasticity as well as subsequent stability of ISF concentrated emulsions, while both acidic pretreatment and salinized pretreatment decreased the viscosity and weakened the stability. Furthermore, ISF emulsions exhibited a good freeze-thaw performance which was further improved by secondary emulsification. Heating promoted the swelling of ISF and strengthened the gel-like structure of emulsions while salinization and acidization weakened the electrostatic interactions and caused the destabilization. These results indicated that pretreatment of ISF significantly influenced the concentrated emulsion properties, providing guidance for the fabrication of concentrated emulsions and related food with designed characteristics., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

5. Protein interactions during dry and wet heat pre-treatment of skim milk powder (dispersions) and their effect on the heat stability of recombined filled evaporated milk.

Author

Wu J, Chen S, Van Damme EJM, De Meulenaer B, and Van der Meeren P

Subjects

Animals, Powders analysis, Protein Aggregates, Protein Carbonylation, Milk Proteins chemistry, Milk chemistry, Hot Temperature

Abstract

Skim milk powder (SMP) as well as aqueous dispersions were subjected to dry and wet heat pre-treatment, respectively, to improve the heat stability of recombined filled evaporated milk (RFEM) derived therefrom. However, microrheological analysis revealed that prolonged incubation caused detrimental effects on the heat stability of RFEM, which were thought to be due to protein interactions. SDS-PAGE results indicated that protein aggregation via non-disulfide covalent bonds occurred upon long-time dry or wet heat incubation. This was probably related to some Maillard reaction products, which is sustained by the increase in lactulose and protein carbonyl content. Considerable protein aggregation via disulfide bonds in the serum was found upon wet heat incubation at temperatures of at least 80 °C. Principal component analysis (PCA) revealed that the negative effects of overprocessing on the heat stability of RFEM were predominantly related to protein cross-linking via non-disulfide covalent bonds related to protein carbonylation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

6. Rheology and stability of concentrated emulsions fabricated by insoluble soybean fiber with few combined-proteins: Influences of homogenization intensity.

Author

Cai Y, Chen B, Zeng D, Huang L, Xiao C, Zhao X, Zhao M, Zhao Q, and Van der Meeren P

Subjects

Emulsions, Particle Size, Rheology, Viscosity, Glycine max, Water

Abstract

Insoluble soybean fiber with few proteins, which is extracted from defatted okara by homogeneous combined with alkali treatment, was used to prepare concentrated emulsions. Firstly, insoluble soybean fiber extracted under pH12 was used to fabricate concentrated emulsions containing various particle concentrations and oil volume fractions and the optimized condition was obtained. Subsequently, insoluble soybean fiber extracted under pH12 followed by different homogeneous strengths were utilized. Concentrated emulsions stabilized by insoluble soybean fiber that was subjected to stronger homogenization presented lower absolute values of the ζ-potential about -47.7 mV and average droplet sizes of 37.0 μm approximately. Moreover, these emulsions exhibited a higher viscosity and elastic modulus, thereby providing better stability and less pronounced environmental sensitivities towards either pH 5 or 100 mM NaCl. Overall, results revealed that insoluble soybean fiber with few protein, especially subjected to homogenization during fiber extraction, was well suited to fabricate concentrated emulsions., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

7. A combined approach for modifying pea protein isolate to greatly improve its solubility and emulsifying stability.

Author

Zhi Z, Yan L, Li H, Dewettinck K, Van der Meeren P, Liu R, and Van Bockstaele F

Subjects

Emulsifying Agents, Emulsions, Hydrophobic and Hydrophilic Interactions, Solubility, Pea Proteins

Abstract

Pea protein-based delivery systems have drawn much attention in the food and pharmaceutical fields in recent years. However, its broad application faces great limitations because of the low solubility. Here, we present a novel and effective approach to overcome this difficulty and enhance the techno-functional characteristics, especially emulsifying stability, of the pea protein isolate (PPI). By combining pH-shifting with ultrasound and heating (PUH), we concluded that the solubility of PPI greatly increased from 29.5 % to 90.4 %, whereas its surface hydrophobicity increased from 1098 to 3706. This was accompanied by the changes of PPI structure, as shown by circular dichroism and scanning electron microscopy. In addition, the modified PPI was applied to stabilize sunflower oil-in-water emulsions. The droplet size of the emulsion with PUHP was reduced and its emulsion stability was significantly elevated. Taken together, we propose a novel combined approach to prepare modified PPI with high solubility and emulsion stability. We expect our method will have a wider application in modifying plant proteins and improving their industrial processing., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

8. Effect of Ultra-high temperature processing on the physicochemical properties and antibacterial activity of d-limonene emulsions stabilized by β-lactoglobulin/Gum arabic bilayer membranes.

Author

Su J, Guo Q, Cai Y, Wang T, Mao L, Gao Y, Yuan F, and Van der Meeren P

Subjects

Anti-Bacterial Agents pharmacology, Elasticity, Emulsions pharmacology, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Gum Arabic chemistry, Hot Temperature, Lactoglobulins chemistry, Microbial Sensitivity Tests, Viscosity, Anti-Bacterial Agents chemistry, Emulsions chemistry, Food Handling methods, Limonene chemistry, Lipid Bilayers chemistry

Abstract

The objectives of the present work were to investigate the influence of Gum Arabic (GA) on the physicochemical properties and ultra-high temperature (UHT) processability of β-lactoglobulin(β-lg)-stabilized d-limonene emulsions. Moreover, we also wanted to evaluate the antimicrobial efficiency and mechanism of β-lg-GA bilayer d-limonene emulsions. Physicochemically stable bilayer emulsions could be formed with an optimal concentration of GA (1.00 wt%), which showed a higher tolerance to both flocculation and coalescence, as well as better protective effects on d-limonene against UHT-treatment that up to 94.32% of d-limonene was retained in emulsions. Likewise, it is also noteworthy that no obvious difference in the minimal inhibitory concentration could be found between bilayer emulsions with or without UHT processing. Moreover, the antimicrobial effects of the bilayer emulsions with UHT treatment were shown to be dose-dependent, which was evidenced from the results of scanning electron microscopy and the determination of released cell constituents. Keywords: β-lactoglobulin; gum arabic; d-limonene emulsion; physicochemical stability; UHT processability, antimicrobial efficiency., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

9. Self-assembly of Tween 80 micelles as nanocargos for oregano and trans-cinnamaldehyde plant-derived compounds.

Author

Sedaghat Doost A, Devlieghere F, Stevens CV, Claeys M, and Van der Meeren P

Subjects

Acrolein chemistry, Acrolein pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Emulsions chemistry, Micelles, Phytochemicals pharmacology, Salmonella drug effects, Acrolein analogs & derivatives, Origanum chemistry, Phytochemicals chemistry, Polysorbates chemistry

Abstract

The self-assembly of Tween 80 (T80) micelles loaded with plant-based oregano essential oil (OR) and trans-cinnamaldehyde (TCA) was studied. The effect of different factors, including the surfactant to oil ratio, the presence of sodium chloride, thermal treatment, and dilution on their formation and physicochemical stability was evaluated. The creation of nano-cargos was confirmed by TEM. The self-associated structures had z-average droplet diameters of 92 to 337 nm without any energy input. Whereas addition of 10% (w/v) NaCl prevented the formation of oregano essential oil nano-assemblies of T80, swollen micelles containing TCA were successfully produced. Moreover, the OR or TCA loaded-micelles had only a slight droplet size variation upon thermal treatment. Ultimately, their antibacterial activity analysis against some food pathogens revealed that the encapsulation of OR and TCA within micelles crucially improved their antibacterial activity. These straightforward and cost-effective designed systems can be applicable in different products, including foods and agrochemicals., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

10. Effect of thymol and Pickering stabilization on in-vitro digestion fate and oxidation stability of plant-derived flaxseed oil emulsions.

Author

Nikbakht Nasrabadi M, Sedaghat Doost A, Goli SAH, and Van der Meeren P

Subjects

Antioxidants chemistry, Hydrolysis, Oxidation-Reduction, Particle Size, Emulsions chemistry, Linseed Oil chemistry, Thymol chemistry

Abstract

The aim of this study was to evaluate the effect of Pickering stabilization by biopolymer-based particles (bioparticles), consisting of flaxseed protein and polysaccharides, and of the addition of thymol to the oil phase on the oxidation stability, and digestion fate of flaxseed oil (FO) emulsions, compared to bulk FO and conventional emulsions stabilized by polysorbate 80 (PS80). Applying Pickering stabilization and thymol simultaneously was a successful approach to retard FO oxidation. Moreover, lipid digestion was slower in bioparticle-stabilized emulsions compared to PS80 stabilized emulsions. The thymol bioaccessibility increased after incorporation into FO Pickering emulsions in comparison to the bulk oil. The results suggested that the combination of Pickering stabilization and thymol addition to the oil phase can be used as a promising way of protecting highly unsaturated oils such as FO against oxidation. These emulsions are also applicable for designing functional foods with controlled lipid digestion., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

11. Production of thymol nanoemulsions stabilized using Quillaja Saponin as a biosurfactant: Antioxidant activity enhancement.

Author

Sedaghat Doost A, Van Camp J, Dewettinck K, and Van der Meeren P

Subjects

Animals, Calorimetry, Differential Scanning, Chickens, Meat analysis, Particle Size, Quillaja chemistry, Quillaja metabolism, Sonication, Antioxidants chemistry, Emulsions chemistry, Nanostructures chemistry, Quillaja Saponins chemistry, Surface-Active Agents chemistry, Thymol chemistry

Abstract

Thymol oil-in-water nanoemulsions as a potential natural alternative for synthetic antioxidant agents were developed. The nanoemulsions were formulated using Quillaja Saponin bio-surfactant and green solvents including high oleic sunflower oil (HOSO), tricaprylin (TC), and cinnamaldehyde (CA). The 4% thymol nanoemulsions containing TC and HOSO remained stable during long-term storage (at least 30 d). The antioxidant activity (AA) of free thymol and thymol nanoemulsions was compared with butylated hydroxytoluene (BHT) and ascorbic acid. The results obtained from DPPH, FRAP, and CUPRAC antioxidant assays showed a substantial improvement (p < 0.05) of the AA of free thymol through emulsification. The outcomes from the AA of the nanoemulsions in raw chicken breast meat measured by the TBARS assay revealed a significant improvement (p < 0.05) of the AA when thymol was encapsulated. These nanoemulsions may be applicable in the food industry as well as in cosmetic and health care products., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

12. Effects of novel and conventional thermal treatments on the physicochemical properties of iron-loaded double emulsions.

Author

Hosseini SMH, Hashemi Gahruie H, Razmjooie M, Sepeidnameh M, Rastehmanfard M, Tatar M, Naghibalhossaini F, and Van der Meeren P

Subjects

Biological Availability, Particle Size, Viscosity, Emulsions chemistry, Food Storage, Iron chemistry, Lipid Peroxidation

Abstract

In this work, changes in different physicochemical properties of iron-loaded double emulsions (DEs) were monitored under the influence of novel (microwave and ohmic) and conventional heat treatments. Microwave heating led to destabilization and obvious phase separation. As compared to control samples, heat treatment increased particle size, light absorbance, centrifugal instability, iron expulsion from the internal aqueous phase, color difference, chemical instability of the lipid phase, release of iron in simulated gastrointestinal fluids and iron bioavailability in cell line SW742. Emulsion viscosity and whiteness index decreased after heat treatment, whereas the zeta-potential remained unchanged. There was a negative correlation between physicochemical stability and heat treatment intensity. Conventional heating resulted in greater stability than ohmic heating. Yoghurt samples (as model systems) were fortified with either iron-loaded or iron-free DEs. Our results showed that the presence of iron in the aqueous phase resulted in significant lipid oxidation during storage., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

13. Influence of non-ionic emulsifier type on the stability of cinnamaldehyde nanoemulsions: A comparison of polysorbate 80 and hydrophobically modified inulin.

Author

Sedaghat Doost A, Dewettinck K, Devlieghere F, and Van der Meeren P

Subjects

Acrolein chemistry, Acrolein pharmacology, Escherichia coli drug effects, Hydrophobic and Hydrophilic Interactions, Inulin metabolism, Microbial Sensitivity Tests, Particle Size, Plant Oils chemistry, Salts chemistry, Staphylococcus aureus drug effects, Surface-Active Agents chemistry, Temperature, Acrolein analogs & derivatives, Emulsifying Agents chemistry, Emulsions chemistry, Inulin chemistry, Nanostructures chemistry, Polysorbates chemistry

Abstract

Cinnamaldehyde nanoemulsions were formulated to enable its application in an aqueous environment. The pure cinnamaldehyde nanoemulsions, stabilized by polysorbate 80 (at concentrations >0.5%), had both a higher stability and smaller droplet size, whereas the emulsions containing hydrophobically modified inulin (HMI) formed a colloidal dispersion with larger particle size. Incorporation of sunflower oil (SO) allowed postponement of Ostwald ripening for a sufficiently long period of time (at least 60 days). Cryo-SEM and droplet size analyses of the nanoemulsions emulsified by HMI revealed no significant changes during storage. Under these conditions, HMI as an emulsifier exhibited a powerful resistance to high salt contents (up to 2 M) and high thermal processing temperatures (90 °C). The surfactant type and SO content had no marked influence on the antimicrobial activity of the nanoemulsions. This study provides precious information for a commercial formulation of nanoemulsions with durable physical stability under severe stress conditions., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

14. Complex coacervation of β-lactoglobulin - κ-carrageenan aqueous mixtures as affected by polysaccharide sonication.

Author

Hosseini SM, Emam-Djomeh Z, Razavi SH, Moosavi-Movahedi AA, Saboury AA, Mohammadifar MA, Farahnaky A, Atri MS, and Van der Meeren P

Subjects

Protein Binding, Sonication, Temperature, Thermodynamics, Viscosity, Carrageenan chemistry, Lactoglobulins chemistry, Polysaccharides chemistry

Abstract

The influence of κ-carrageenan (KC) depolymerization using ultrasound on its interaction with β-lactoglobulin (BLG) was investigated by isothermal titration calorimetry (ITC), turbidity measurement, dynamic light scattering and zeta-potential analyses. Time and amplitude of the sonication had a direct effect on the viscosity depression, while the sonication temperature had an opposite effect. ITC measurements indicated that the sonication significantly decreased the affinity constant between KC and BLG. The zeta-potential of the nanoparticles produced from ultrasonicated (US) KC-BLG associative interaction was lower than of those produced from intact (IN) KC-BLG interaction. These differences were attributed to the lower charge density of the KC (US) as a result of sonochemical interactions. Polydispersity and particle size measurements showed that the effect of the sonication was the homogenisation of the nanoparticles in the mixed dispersion. The nanoparticles formed may therefore be useful as a delivery system for fortification purposes of acidic beverages., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013