The Influence of Edible Oils’ Composition on the Properties of Beeswax-Based Oleogels

Frolova, Yuliya; Sarkisyan, Varuzhan; Sobolev, Roman; Makarenko, M A; Semin, M O; Кочеткова, А А

doi:10.3390/gels8010048

Cited by 48 publications

(48 citation statements)

References 48 publications

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“…The crystal network of the OG formulations may influence the OBC. According to past studies, the minimal oil loss in OGs made from vegetable and animal oils and wax can explains the variations in crystal size and shape in the OGs. − The values of oil loss may significantly change when a component ratio in the OG is changed, and this may suggest that the low OBC may be associated with a certain ratio of fatty acids in the WGO. One more feasible reason of the low OBC of the WGO related OG formulations may be due to the presence of different impurities in the oil composition.…”

Section: Resultsmentioning

confidence: 99%

Structuring of Wheat Germ Oil into Oleogels Using Rose Floral Wax via Entanglement of Needle-Like Crystal Networks: Preparation, Characterizations, and Application

Sivakumar

Babu

Das

et al. 2023

Crystal Growth & Design

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The current paper discusses a key area in the development of novel biobased products used in the food, cosmetics, and pharmaceutical sectors. Herein, we made a conscious effort to conduct research on the optimal rose flower wax (RFW) gelation concentration to promote wheat germ oil (WGO) gelation because both components of this contribution have beneficial impacts on human health. The critical gelation concentration of RFW required to bring about gelation of WGO was oleogel (OG) 9% (w/w). The alterations in the characteristic features of RFW and WGO were thoroughly examined at the macroscopic and microscopic levels. Images taken with bright field and polarized light microscopes revealed the crystalline network structure of fiber-like fat crystals. The Fourier transform infrared and micro-Raman data indicate that the interactions between the constituent parts of OGs were composition-dependent. X-ray diffraction diffractograms reveal the presence of a metastable β′ polymorphic form of fat crystal in the OGs. Furthermore, the development of solid fat crystals in OG compositions was used by the crystallization kinetics to explain the rate of OG crystallization. According to mechanical tests, OG 17.5 considerably has the highest firmness (F 0) and work of shear (C 0) abilities, indicating that it has greater mechanical strength, molecular interaction, and stability than the other OG formulations. The in vitro drug (curcumin) release from the synthesized OGs was modeled using the Korsmeyer–Peppas equation, and the results suggested that the drug molecules diffused out of the OGs through a non-Fickian mechanism. The OGs demonstrate the ability to be explored for oral drug delivery applications.

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Section: Resultsmentioning

confidence: 99%

Structuring of Wheat Germ Oil into Oleogels Using Rose Floral Wax via Entanglement of Needle-Like Crystal Networks: Preparation, Characterizations, and Application

Sivakumar

Babu

Das

et al. 2023

Crystal Growth & Design

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“…Both water and wax concentration influence the peaks occurring at 1640 cm −1 , mainly due to O-H groups, and the highest absorbances were registered for samples containing 3% (m/m) shellac wax oleogel (EM5, EM6, EM8). Changes in the vibrational characteristics of the hydrocarbon chain of the shellac wax are exhibited at 1461 cm −1 due to the C-H bending of n-alkanes and at 719 cm −1 due to the CH 2 rocking vibration, and can offer information about the role of the wax in the emulsification process [ 30 , 31 ]. High absorbances were registered for EM3 and EM4.…”

Section: Resultsmentioning

confidence: 99%

The Feasibility of Shellac Wax Emulsion Oleogels as Low-Fat Spreads Analyzed by Means of Multidimensional Statistical Analysis

Pușcaș

Mureșan

2022

Gels

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Shellac wax-based oleogel emulsions were studied with a three level two factorial design in order to find an optimal formulation for a spread formulation. Rheological, textural, colorimetry, and stability analysis were conducted to assess the performance of oleogel emulsions. FTIR spectra were also compared. The similarities between the samples were studied using cluster analysis. Analysis of variance (ANOVA) demonstrates that (i) the texture is influenced by the wax concentration, (ii) the rheology and stability by both the considered numeric factors (wax and water concentration) and their interaction, and (iii) the color by both factors. The emulsions containing 7% (m/m) shellac oleogels behaved like the strongest systems, (G′ & GLVR > 30,000 Pa) and exhibited the highest value of the G′-G″ cross-over. The lowest oil binding capacity (OBC) was 99.88% for the sample with 3% (m/m) shellac and 20% (m/m) water. The whiteness index (Windex) varied between 58.12 and 78.50. The optimization process indicated that a formulation based on 4.29% (m/m) shellac wax and 24.13% (m/m) water was suitable as a low-fat spread.

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“…Oleogels are structured edible oils in which edible oils (up to 90%) are used as a dispersion medium and low or high molecular weight gelling agents as a dispersion phase [ 14 ]. The composition of oleogels is often diverse and can vary both in the dispersion medium [ 15 , 16 , 17 ] and the dispersed phase [ 18 , 19 ], which in turn affects the final properties of the oleogels. Usually, canola oil [ 19 ], sunflower or linseed oil [ 16 , 20 ], and fish oil [ 21 ] are used as dispersion mediums.…”

Section: Oleogels In Food Productsmentioning

confidence: 99%

“…The use of different oils, including their combinations, allows for the regulation of the fatty acid composition of both oleogels and the products containing them. By using one type of gelling agent with different oils, it is possible to obtain oleogels with various textural characteristics [ 17 ]. The choice of the dispersed phase is also diverse and includes compounds, both with low molecular weight such as monoglycerides [ 22 ], sterols [ 23 ], waxes or their fractions [ 24 ] and with high molecular weight—ethyl cellulose [ 25 ], methylcellulose or hydroxypropyl methylcellulose [ 26 ], etc.…”

Section: Oleogels In Food Productsmentioning

confidence: 99%

“…There are hypotheses about the relationship of microstructural characteristics (morphology and crystal size) with various properties of oleogels, in particular with oil-binding capacity, textural and rheological properties [ 17 , 22 , 95 , 96 ]. Oleogels with small crystals form structures with higher oil-binding capacity, hardness, and rheological characteristics.…”

Section: Ultrasonic Treatment Of Food Colloidal Systems Containing Ol...mentioning

confidence: 99%

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Ultrasonic Treatment of Food Colloidal Systems Containing Oleogels: A Review

Frolova

Sarkisyan

Sobolev

et al. 2022

Gels

Self Cite

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The use of oleogels as an alternative to solid fats to reduce the content of saturated and trans-isomeric fatty acids is a developing area of research. Studies devoted to the search for methods of obtaining oleogels with given properties are of current interest. Ultrasonic treatment as a method for modifying oleogel properties has been used to solve this problem. The number of publications on the study of the effect of ultrasonic treatment on oleogel properties is increasing. This review aimed to systematize and summarize existing data. It allowed us to identify the incompleteness of this data, assess the effect of ultrasonic treatment on oleogel properties, which depends on various factors, and identify the vector of this direction in the food industry. A more detailed description of the parameters of ultrasonic treatment is needed to compare the results between various publications. Ultrasonic treatment generally leads to a decrease in crystal size and an increase in oil-binding capacity, rheological properties, and hardness. The chemical composition of oleogels and the concentration of gelators, the amplitude and duration of sonication, the cooling rate, and the crystallization process stage at which the treatment occurs are shown to be the factors influencing the efficiency of the ultrasonic treatment.

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The Influence of Edible Oils’ Composition on the Properties of Beeswax-Based Oleogels

Cited by 48 publications

References 48 publications

Structuring of Wheat Germ Oil into Oleogels Using Rose Floral Wax via Entanglement of Needle-Like Crystal Networks: Preparation, Characterizations, and Application

Structuring of Wheat Germ Oil into Oleogels Using Rose Floral Wax via Entanglement of Needle-Like Crystal Networks: Preparation, Characterizations, and Application

The Feasibility of Shellac Wax Emulsion Oleogels as Low-Fat Spreads Analyzed by Means of Multidimensional Statistical Analysis

Ultrasonic Treatment of Food Colloidal Systems Containing Oleogels: A Review

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