Your search keyword '"Tocopherols"' showing total 9,561 results

101. Improving stabilization of α-tocopherol and α-tocopheryl acetate against oxidation, light and UV radiation by complexation with β-cyclodextrin and starch

Author

Ali, Hussein M., Attia, Mohamed H., Ramadan, Khaled M. A., Rashed, Eman N., and Bendary, Eslam S.

Published

2024

102. Vitamin E Efficacy in HI/HA

Author

University of Pennsylvania, Lawson Wilkins Pediatric Endocrine Society, and Elizabeth A Rosenfeld, PI

Published

2022

103. Desiccation tolerance in the resurrection plant Barbacenia graminifolia involves changes in redox metabolism and carotenoid oxidation.

Author

Alves Vieira, Evandro, Gaspar, Marilia, Frois Caldeira, Cecílio, Munné-Bosch, Sergi, and Regina Braga, Marcia

Subjects

CAROTENOIDS, LUTEIN, PRINCIPAL components analysis, WATER shortages, REACTIVE oxygen species, METABOLISM, OXIDATION-reduction reaction

Abstract

Desiccation tolerance in vegetative tissues enables resurrection plants to remain quiescent under severe drought and rapidly recover full metabolism once water becomes available. Barbacenia graminifolia is a resurrection plant that occurs at high altitudes, typically growing on rock slits, exposed to high irradiance and limited water availability. We analyzed the levels of reactive oxygen species (ROS) and antioxidants, carotenoids and its cleavage products, and stress-related phytohormones in fully hydrated, dehydrated, and rehydrated leaves of B. graminifolia. This species exhibited a precise adjustment of its antioxidant metabolism to desiccation. Our results indicate that this adjustment is associated with enhanced carotenoid and apocarotenoids, α-tocopherol and compounds of ascorbate-glutathione cycle. While a-carotene and lutein increased in dried-leaves suggesting effective protection of the lightharvesting complexes, the decrease in β-carotene was accompanied of 10.2-fold increase in the content of β-cyclocitral, an apocarotenoid implicated in the regulation of abiotic stresses, compared to hydrated plants. The principal component analysis showed that dehydrated plants at 30 days formed a separate cluster from both hydrated and dehydrated plants for up to 15 days. This regulation might be part of the protective metabolic strategies employed by this resurrection plant to survive water scarcity in its inhospitable habitat. [ABSTRACT FROM AUTHOR]

Published

2024

104. DEVELOPMENT OF THE COMPOSITION OF ANOXIDATIONSTABLE DRESSING WITH HIGH NUTRITIONAL VALUE.

Author

Kalyna, Viktoriia, Stankevych, Serhii, Zabrodina, Inna, Shubina, Lidiia, Chuiko, Maryna, Mikheeva, Oksana, Horiainova, Viktoriia, Shapovalenko, Denys, Obolentseva, Larysa, and Kariyk, Andrii

Subjects

NUTRITIONAL value, BASE oils, SESAME oil, RAW materials, NEW product development

Abstract

The solution to the problem of developing an oxidation-stable dressing with high nutritional value based on unrefined first cold-pressed linseed, corn and sesame oils is considered. The objects of the study are the following indicators: antioxidant, fatty acid composition, induction period of accelerated oxidation of oils, blends and finished products. The rational range of oilratios in the blend, enriched with α-linolenic acid, stabilized against oxidative spoilage due to natural antioxidants – tocopherols, sesamol, sesamolin, is substantiated. The ratio of linseed, corn and sesame oils is 1:2:1, respectively. The characteristics of the blend are as follows: the ratio of ω-3:ω-6 fatty acids is 1:1.7; the induction period of accelerated oxidation (at 80 °C) – 4.1 h. A model sample of the dressing was produced using the developed blend. It was proven that the sample of the dressing of the proposed composition retains its organoleptic and physico-chemical parameters (titratable acidity, dry matter content, acid and peroxide values of the oil fraction) during 30 days of storage at a temperature of 8±1 °C. A feature of the obtained results is the possibility of increasing the nutritional value of the dressing based on unrefined oils while preserving the extended shelf life of products. From a practical point of view, the development of such products allows expanding the range of competitive dressings with high nutritional value. An applied aspect of using the obtained scientific result is the possibility of modeling the composition of dressings or other oil products based on valuable oil raw materials, depending on the ratios of the oil base components of the product. [ABSTRACT FROM AUTHOR]

Published

2024

105. Assessment of Popcorn's Bioactive Status in Response to Popping.

Author

Vukadinović, Jelena, Srdić, Jelena, Kravić, Natalija, Mladenović Drinić, Snežana, Simić, Milena, Brankov, Milan, and Dragičević, Vesna

Subjects

*POPCORN, *LUTEIN, *PHYTIC acid, *ZEAXANTHIN, *HIERARCHICAL clustering (Cluster analysis), *BIOACTIVE compounds, *PHENOLS, *CLUSTER analysis (Statistics)

Abstract

Popcorn is a specialty maize variety with popping abilities. Although considered a snack, popcorn flakes provide a variety of benefits for the human diet. To evaluate the change in content of bioactive compounds in response to microwave popping, the kernels and flakes of twelve popcorn hybrids were assayed. Accordingly, the content of phytic acid, glutathione, phenolic compounds, carotenoids, and tocopherols, as well as the antioxidant activity, were evaluated. In all evaluated popcorn hybrids, the most pronounced significant average decrease of 71.94% was observed for GSH content, followed by 57.72% and 16.12% decreases for lutein + zeaxanthin and phytic acid content, respectively. In response to popping, in the majority of the evaluated hybrids, the most pronounced significant average changes of a 63.42% increase and a 27.61% decrease were observed for DPPH, followed by a 51.52% increase and a 24.48% decrease for β-carotene, as well as, a 48.62% increase and a 16.71% decrease for α-Tocopherol content, respectively. The applied principal component and hierarchical cluster analyses revealed the distinct separation of popcorn hybrids' kernels and flakes, indicating the existence of a unique linkage of changes in bioactive compound content in response to popping. [ABSTRACT FROM AUTHOR]

Published

2024

106. Chemical Data and Relationships for a Scoring Algorithm of Extra Virgin Olive Oil's Nutritional Value.

Author

Cecchi, Lorenzo, Conticelli, Filippo, Zanoni, Bruno, Breschi, Carlotta, Bellumori, Maria, and Mulinacci, Nadia

Subjects

*NUTRITIONAL value, *OLIVE oil, *PHENOLS, *ALGORITHMS, *CHEMICAL testing, *MICRONUTRIENTS

Abstract

Extra virgin olive oil (EVOO) is a valuable product and is highly appreciated by consumers for its great nutritional value. However, to date, there has been a lack of uniform systems capable of ranking the nutritional value of EVOO based on its chemical composition in terms of macro- and micronutrients (including phenolic compounds and tocopherols). The aim of this study was to propose a scoring algorithm to rank the nutritional value of EVOO samples, considering their chemical composition in macro- and micronutrients and their sensitivity to oxidation phenomena. Data from more than 1000 EVOO samples were used to assess the variability of the data, considering the selected negative parameters (free acidity, peroxide value, spectrophotometric indices) and positive components (composition in tocopherols via HPLC-DAD, phenolic compounds via HPLC-DAD, and fatty acids via GC-MS) so as to ensure the universal validity of the scoring algorithm. The dataset included samples from the main producing countries worldwide, in addition to Australia, across several production years; data were selected to represent different production realities. A mathematical model was set up for each chemical component, resulting in six variable values. By combining these values with a dimensionless constant value, the algorithm for computing the nutritional value score (NVS) was defined. It allows the nutritional value of an oil to be ranked on a scale of 0 to 100 based on its chemical composition. The algorithm was then successfully tested using chemical data from about 300 EVOO samples obtained from laboratories from different Italian regions. The proposed NVS is a simple and objective tool for scoring the nutritional value of an EVOO, easy to understand for both producers and consumers. [ABSTRACT FROM AUTHOR]

Published

2024

107. Organic and Inorganic Selenium Compounds Affected Lipidomic Profile of Spleen of Lambs Fed with Diets Enriched in Carnosic Acid and Fish Oil.

Author

Białek, Małgorzata, Białek, Agnieszka, Wojtak, Wiktoria, and Czauderna, Marian

Subjects

*SELENOPROTEINS, *ORGANOSELENIUM compounds, *CARNOSIC acid, *FISH oils, *SPLEEN, *RAPESEED oil

Abstract

Simple Summary: The spleen, traditionally associated with its role in immune surveillance and blood cell turnover, nowadays is known to be engaged in metabolic control processes, e.g., in the metabolism of lipids. While input of energy sources is essential during animal ratio' formulation, exploring the lipid composition of the spleen and its potential modulation by antioxidant supplements becomes particularly relevant. Our results may be practically applied in the food industry, as they may provide animal food, ensuring the nutritional requirements of especially poorly nourished consumers. Moreover, our findings could bridge the existing knowledge gap about the interplay of diet and lipid composition in the spleen. As this organ is considered to have an essential role in the development of atherosclerosis, obesity, nonalcoholic liver disease, nonalcoholic steatohepatitis, and fatty liver, understanding the function of this internal organ may be a starting point for developing efficient prevention strategies in order to counteract these disorders. The purpose of our study was to investigate the effect of 0.35 mg Se/kg basal diet (BD) (Se as sodium selenate (Se6) and yeast rich in seleno-methionine (SeYe)) and 0.1% carnosic acid (CA) supplementation to the diet containing 1% fish oil (F-O) and 2% rapeseed oil (R-O) on the contents of fatty acids (FA), malondialdehyde (MDA), tocopherols (Ts), and total cholesterol (TCh) in lambs' spleens. A total of 24 male lambs (4 groups per 6 animals) have been fed: the control diet—the basal diet (BD) enriched in F-O and R-O; the CA diet—BD enriched in F-O, R-O, and CA; the SeYeCA diet—BD enriched in F-O, R-O, CA, and SeYe; the Se6CA diet—BD enriched in F-O, R-O, CA, and Se6. Dietary modifications affected the profiles of saturated (SFA), monounsaturated (MUFA), and polyunsaturated (PUFA) fatty acids in spleens. The SeYeCA and Se6CA diets increased the docosapentaenoic acid preference in Δ4-desaturase; hence, a higher content of docosahexaenoic acid was found in the spleens of SeYe- or Se6-treated lambs than in spleens of animals receiving the CA and control diets. The SeYeCA and Se6CA diets increased the concentration ratio of n-3long-chain PUFA (n-3LPUFA) to FA (n-3LPUFA/FA) in spleens compared to the control and CA diets. The content of n-3PUFA was higher in the spleens of Se6 treated lambs than in spleens of animals receiving the SeYeCA, CA, and control diets. The Se6CA diet increased the content of c9t11CLA in the spleen compared to the control, CA, and SeYeCA diets. Experimental diets reduced the level of atherogenic FA, the content ratios of n-6PUFA/n-3PUFA and n-6LPUFA/n-3LPUFA, and improved the content ratio of MUFA/FA and the value of the hypocholesterolemic/hypercholesterolemic FA ratio in the spleen in comparison with the control diet. The experimental diets supplemented with SeYe or Se6 increased levels of TCh and Ts in spleens in comparison with the CA and control CA diets. The present studies documented that Se6, SeYe, and CA influenced the metabolism of FA, Ts, and cholesterol in spleens. [ABSTRACT FROM AUTHOR]

Published

2024

108. Variability in seed quality traits in castor germplasm.

Author

Velasco, L., Pérez-Vich, B., Garcés, R., and Fernández-Martínez, J. M.

Subjects

*CASTOR oil, *SEED quality, *PLANT germplasm, *FATTY acids, *GERMPLASM, *PHYTOSTEROLS, *CASTOR oil plant, *GENOTYPE-environment interaction, *OILSEEDS, *VITAMIN E, *CROPS, *GENETIC variation

Abstract

Castor is an industrial oilseed crop with great potential for biorefineries. However, little is known about the variability in the bioactive compounds in castor germplasm. This study evaluated seed weight, oil content, fatty acid profile, tocopherols, and phytosterols in 160 accessions of the USDA-ARS castor germplasm collection. The accessions were grown in Cordoba, Spain, under three different environmental conditions. Environmental and genotype-by-environment interaction effects were predominant for most traits, resulting in moderate to low broad-sense heritabilities, which ranged from 0.12 for total tocopherol content to 0.88 for hundred-seed weight. The genetic variability in the seed quality traits identified in the collection was lower than that reported previously for the germplasm of wild and semi-wild accessions from Spain, which is attributed to the lower genetic diversity in cultivated than in wild forms. The variation in seed quality traits in castor germplasm can be exploited to improve the concentration of bioactive compounds in castor cultivars. [ABSTRACT FROM AUTHOR]

Published

2024

109. Obtaining an Oily Ingredient Rich in PUFAS and Tocopherols and a High-Nutritional-Value Flour from Beans (Phaseolus vulgaris L.) by Supercritical CO 2 Extraction.

Author

Benites-Mena, Jesus, Vargas-De-La-Cruz, Celia, Vergara-Valdés, Claudia, Jave-Nakayo, Jorge, Ortiz-Viedma, Jaime, Char, Cielo, Inga-Guevara, Marianela, Flores, Marcos, and Cepeda, Alberto

Subjects

OILSEEDS, COMMON bean, BEANS, VITAMIN E, CARBON dioxide, ESSENTIAL fatty acids, ESSENTIAL oils

Abstract

The objective of this work was to carry out a preliminary study of the fractionation by supercritical CO2 (sc-CO2) extraction of two varieties of Peruvian beans (Phaseolus vulgaris L.), white (WB) and red (RB), to obtain two novel products: an oil rich in essential fatty acids and tocopherols and a defatted flour with high nutritional value and amino acids. The extraction temperature and pressure were optimized using the response surface methodology (RSM) and the extraction kinetics were optimized using the Spline equation. The results revealed that the best extraction conditions for WB and RB were 396.36 Bar, 40.46 °C, with an efficiency of 1.65%; and 391.995 Bar, 44.00 °C, with an efficiency of 1.12%, respectively. The WB and RB oils presented a high degree of polyunsaturation (63.2 and 52.8%, respectively), with oleic, linoleic, and linolenic fatty acids prevailing. Gamma-tocopherol was the predominant antioxidant in both oils. The residual flours (WB and RB) obtained after extraction with sc-CO2 had a high average content of proteins (23%), carbohydrates (61%), and minerals (3%). The limiting amino acids of WB were: Fen + Tyr, Leu, Lys, and in RB, only Leu was limiting. The viscosity of the solutions (20%) of the WB and RB flours mainly adjusted to the Waele's Ostwald model (r = 0.988). It is concluded that both products (oil and bean flour) obtained in an optimized manner using an eco-friendly technology with sc-CO2 have high nutrient and bioactive component content and can be used in the development of new ingredients and healthy foods of plant origin. [ABSTRACT FROM AUTHOR]

Published

2024

110. Effects of Silica Hydrogel on Degumming of Fragrant Rapeseed Oil.

Author

Wei Zhang, Yuhuang Yang, Pengkai Xie, Pingping Ye, Xuequan Shu, Haibo Zhang, Yuhang Chen, Youfeng Zhang, and Jun Jin

Subjects

RAPESEED oil, SILICA, EDIBLE coatings, VITAMIN E, MICRONUTRIENTS

Abstract

Hot-pressed rapeseed oils with pleasant flavor, i.e., fragrant rapeseed oils, are favored by consumers, especially people from the southwest provinces of China. Although degumming is an important section in producing edible rapeseed oils, conventional degumming techniques are generally suffered from disadvantages such as moisture control, and large losses of micronutrients and flavors. In the present paper, hot-pressed rapeseed oils were treated with silica hydrogel to remove their gums, and changes in phospholipids, acid values, peroxide values, tocopherols, total phenols, and flavor compounds were analyzed to compare the silica hydrogel-degumming with conventional methods. The optimized conditions were suggested to be carried out at 45°C for 15 min, and the silica hydrogel dosage was 1.10%. More than 97.00% of phospholipids were removed after the degumming, and more than 85.00% of micronutrients, were retained in the treated oils. The degumming efficiency was therefore significantly higher than those operated by conventional acid degumming and soft degumming techniques. It was found that the dosage of the silica hydrogel significantly affected the removal rate of phospholipids compared with degumming time and temperature. There were nearly typical volatile compounds found in the rapeseed oils, while most of them kept almost stable after the silica hydrogel-degumming. In this regard, silica hydrogel adsorption exhibited little effect on volatile compounds, making it more suitable for the production of fragrant rapeseed oils. [ABSTRACT FROM AUTHOR]

Published

2024

111. Application of pilot‐scale molecular distillation for enrichment of phytonutrients from a novel deodorizer distillate of the margarine and shortenings industry.

Author

Maziero, Eluize Vayne, Moro, Felipe, Ballus, Cristiano Augusto, Tanabe, Eduardo Hiromitsu, and Bertuol, Daniel Assumpção

Subjects

EDIBLE fats & oils, PHYTOSTEROLS, VEGETABLE oils, DISTILLATION, FREE fatty acids, SOY oil

Abstract

Background: A wiped‐film molecular distillation (WFMD) pilot plant was used to evaluate process conditions for enriching phytonutrients (PN) from a novel vegetable oil deodorizer distillate (VODD) of the margarine and shortenings industry. This byproduct results from the incorporation of new blends of vegetable oils, such as soybean and palm oil, making it of interest due to its distinct chemical composition and matrix, which differ from those of deodorizer distillates studied previously. The significance of the present investigation is related to the properties of the oil blend, requiring the establishment of new process conditions for this specific VODD. Experimental design was used to evaluate the WFMD process variables, with the aim of removing free fatty acids and enabling eight PN to be concentrated in the reprocessing stages. Results: The product obtained after three WFMD stages presented a fivefold increase in the total PN concentration, compared to the raw material. Notably, the procedure provided enrichment ratios of 7.2‐fold for total tocopherols (including α‐, β‐, λ‐ and δ‐tocopherols), 4.5‐fold for total phytosterols (including campesterol, stigmasterol and β‐sitosterol) and 1.2‐fold for squalene, together with a deacidification efficiency of 78.93%. Conclusion: The proposed process provided significant concentration gains for all eight PN evaluated, resulting in a value‐added product. These excellent results were achieved using only three WFMD stages, without any need for additional processing steps. The data obtained at the pilot scale provide valuable insights for predicting the scalability of the process and facilitating potential industrial implementation. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

112. Influence of the extraction process on the chemical composition and oxidation state of baobab (Adansonia digitata L.) seed oil.

Author

Ndiaye, Edouard Mbarick, El Idrissi, Yousra, Sow, Alioune, Ayessou, Nicolas Cyrille, El Moudden, Hamza, Harhar, Hicham, Cisse, Mady, and Tabyaoui, Mohamed

Subjects

CHEMICAL processes, ADANSONIA digitata, OILSEEDS, OXIDATION states, SOLVENT extraction, OLIVE oil, VEGETABLE oils

Abstract

Baobab oil is nowadays highly prized by local populations as well as the cosmetic industry. It is a rare oil due to the low oil content of the seeds of the baobab fruit (Adansonia digitata L.). To obtain this oil, the collected seeds were cleaned and ground into powder. Then, the extraction was done by pressing and solvent. The aim of this study is to assess the impact of the extraction method on the composition of baobab oil. According to the results obtained, the solvent extraction process has an influence on the fatty acid composition, especially for oleic (36.42 vs 37.40) % and linoleic (26.85 vs 25.21) % acids. We note a significant difference in the total sterol in favor of the solvent extraction process (370.02 mg.100.g-1 for the oil obtained by pressing against 458.14 mg.100.g-1 for the oil obtained by solvent). Solvent extraction drastically reduces total tocopherols from 1562.4 mg.kg-1 to 547.6 mg.kg-1. The chlorophyll content decreases slightly. However, the carotenoid content increases slightly with solvent extraction. According to the results obtained, the soxhlet solvent extraction process has an effect on the chemical composition of the oil. The heat contributes to the oxidation of the oil and the reduction of sensitive elements such as tocopherols. [ABSTRACT FROM AUTHOR]

Published

2024

113. Accumulation Patterns of Metabolites Responsible for the Functional Quality of Virgin Olive Oil during Olive Fruit Ontogeny.

Author

Luaces, Pilar, Expósito, Jesús, Benabal, Paula, Pascual, Mar, Sanz, Carlos, and Pérez, Ana G.

Subjects

OLIVE oil, ONTOGENY, FRUIT ripening, FRUIT, PHENOLS, ANTHOCYANINS

Abstract

The health-promoting antioxidant properties of virgin olive oil (VOO) are today considered priority targets in the new olive breeding programs. Given that these properties depend mainly on its phenolic fraction, whose origin lies in the phenolic compounds present in olive fruit, the objective of this study was to provide further insight into the accumulation dynamics of the main antioxidant compounds, including both polar phenolics and lipophilic tocopherols, during the ontogeny of the olive fruit. Data obtained show that, albeit with significant differences, all the studied genotypes share just after fruit set an intense increase in the synthesis of tyrosol and hydroxytyrosol derivatives, by far the main phenolic compounds of the olive fruit, and a subsequent steady decrease along fruit development and ripening. The accumulation dynamics of flavonoids and tocopherols were different from those of tyrosol and hydroxytyrosol derivatives, presenting a peak of synthesis just before the onset of fruit ripening, and then in general, their content decreases throughout the ripening phase. In the case of flavonoids, all genotypes also share a strong increase in the accumulation of anthocyanins in the final stages of fruit ripening, coinciding with the change in fruit color. Furthermore, the results during the fruit ripening process evidenced that the content of tyrosol and hydroxytyrosol derivatives and tocopherols in the fruit largely determines the content of these groups of compounds in the oil. The information acquired could be useful for the selection of the most suitable moment in the ontogeny of the olive fruit for the search for key genes in the biosynthesis of phenolic compounds. [ABSTRACT FROM AUTHOR]

Published

2024

114. Chemical Composition, Lipid-Soluble Bioactive Compounds and Potential Health Benefits of the Moss Hypnum cupressiforme Hedw.

Author

Petkova, Zhana, Teneva, Olga, Antova, Ginka, Angelova-Romova, Maria, Gecheva, Gana, and Dimitrova-Dyulgerova, Ivanka

Subjects

BIOACTIVE compounds, UNSATURATED fatty acids, FATTY acids, MOSSES, STEROLS, LIPIDS

Abstract

Hypnum cupressiforme Hedw. is the main species for Moss surveys (ICP Vegetation programme) in Southeastern Europe and is widely distributed in the region. In addition to their biomonitoring role, mosses are applied in some countries as a traditional medicine for the treatment of eczema, cuts, burns, eye diseases, etc. Therefore, the chemical and lipid composition of the moss H. cupressiforme is of interest to establish their possible application in different fields. The chemical composition of the moss was examined regarding total lipids, proteins, carbohydrates (i.e., fibres), ash, and moisture content. The main lipid-soluble bioactive components were determined as sterols, tocopherols, phospholipids and fatty acids. The major fatty acids were linoleic (14.9%), oleic (13.8%), palmitic (12.5%) and α-linolenic (11.3%) acids. Unsaturated fatty acids (56.4%) prevailed in the glyceride oil, in which the polyunsaturated ones constituted 32.5%. The lipid indices (atherogenicity, thrombogenicity, hypocholesterolemic/hypercholesterolemic ratio, peroxidability, and oxidation stability index) were also theoretically calculated based on the fatty acid composition of the moss lipids to establish their health benefits and the rate of oxidation. The primary results of this study revealed H. cupressiforme to be a promising alternative source of bioactive compounds that could be implemented in supplements with health-promoting effects. [ABSTRACT FROM AUTHOR]

Published

2023

115. Microwave pretreatment effects on physicochemical characteristics, antioxidant properties, tocopherols, pigments, phenolic and fatty acid composition of chia (Salvia hispanica L.) seed oil.

Author

Sundar, Shyam, Singh, Balwinder, and Kaur, Amritpal

Subjects

PHENOLIC acids, OILSEEDS, CHIA, VITAMIN E, PIGMENTS, HYDROXYCINNAMIC acids, ANTHOCYANINS

Abstract

In the current study, the effect of microwave pretreatment (MWP) at 180, 360 and 540 W for 5 and 10 min duration on black and white chia seed oil (ChO) quality, phenolic composition, and stability characteristics were investigated. Increase in MWP power and duration had increased the total phenolic and flavonoid contents, phenolic acids, flavonoids, tocopherols, pigments, oxidative stability, radical scavenging activity, ΔE, a* value and browning index of ChO. The color attributes (L*, b*, chroma and hue values) were decreased by increasing MWP conditions. The 4-hydroxybenzaldehyde, hydroxybenzoic (vanillic, protocatechuic, ellagic and syringic acid), hydroxycinnamic (chlorogenic, rosmarinic, trans-cinnamic and caffeic acid) acids, and flavonoids (epicatechin, vitexin, rutin, myricetin and catechin) were highest in oil extracted after MWP at 540 W for 10 min. The increment in oxidative stability correlated significantly and positively with the level of phenolic acids, pigments, flavonoids and Maillard reaction products in ChO from microwave-pretreated chia seeds. The study concludes that the MWP of chia seeds at 540 W for 10 min had significantly improved the phenolic profile, radical scavenging activity, oxidative stability, and yield of ChO. [ABSTRACT FROM AUTHOR]

Published

2023

116. Variability in seed quality traits in castor germplasm

Author

L. Velasco, B. Pérez-Vich, R. Garcés, and J.M. Fernández-Martínez

Subjects

Fatty acids, Oil content, Phytosterols, Ricinus communis, Seed weight, Tocopherols, Nutrition. Foods and food supply, TX341-641

Abstract

Castor is an industrial oilseed crop with great potential for biorefineries. However, little is known about the variability in the bioactive compounds in castor germplasm. This study evaluated seed weight, oil content, fatty acid profile, tocopherols, and phytosterols in 160 accessions of the USDA-ARS castor germplasm collection. The accessions were grown in Cordoba, Spain, under three different environmental conditions. Environmental and genotype-by-environment interaction effects were predominant for most traits, resulting in moderate to low broad-sense heritabilities, which ranged from 0.12 for total tocopherol content to 0.88 for hundred-seed weight. The genetic variability in the seed quality traits identified in the collection was lower than that reported previously for the germplasm of wild and semi-wild accessions from Spain, which is attributed to the lower genetic diversity in cultivated than in wild forms. The variation in seed quality traits in castor germplasm can be exploited to improve the concentration of bioactive compounds in castor cultivars.

Published

2024

117. Combination of fingerprint and chemometric analytical approaches to identify the geographical origin of Qinghai-Tibet plateau rapeseed oil

Author

Ziqin Ye, Jinying Wang, Shengrui Gan, Guoxin Dong, and Furong Yang

Subjects

Fatty acids, Phytosterols, Tocopherols, Rapeseed oil, Chemometrics, Geographical origin, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Verification of the geographical origin of rapeseed oil is essential to protect consumers from fraudulent products. A prospective study was conducted on 45 samples from three rapeseed oil-producing areas in Qinghai Province, which were analyzed by GC-FID and GC-MS. To assess the accuracy of the prediction of origin, classification models were developed using PCA, OPLS-DA, and LDA. It was found that multivariate analysis combined with PCA separate 96% of the samples, and the correct sample discrimination rate based on the OPLS-DA model was over 98%. The predictive index of the model was Q2 = 0.841, indicating that the model had good predictive ability. The LDA results showed highly accurate classification (100%) and cross-validation (100%) rates for the rapeseed oil samples, demonstrating that the model had strong predictive capacity. These findings will serve as a foundation for the implementation and advancement of origin traceability using the combination of fatty acid, phytosterol and tocopherol fingerprints.

Published

2024

118. Effects of feeding bergamot pulp and olive leaves on performance and meat quality in Apulo-Calabrese pigs

Author

Manuel Scerra, Francesco Foti, Pasquale Caparra, Caterina Cilione, Matteo Bognanno, Fortugno Paolo, De Caria Paolo, Antonio Natalello, Martino Musati, and Luigi Chies

Subjects

By-product, Phenols, Fatty acids, Tocopherols, Oxidative stability, Veterinary medicine, SF600-1100

Abstract

Abstracts: To determine the effects of dietary inclusion of bergamot pulp and olive leaves on pork quality, thirty-six barrows (Apulo-Calabrese; 112.5 ± 7.40 kg initial bodyweight) were randomly assigned to four experimental treatments and fed for 100 days a control diet (control group) or a diet similar to the control diet in which part of the cereals were replaced with 20 % (DM on the diet fed) of ensiled bergamot pulp (dry matter on the diet fed, EBP group) or olive leaves (OLL group) or a 1:1 mixture of both by-products (BPOL group).In the present study, the dietary administration of by-products did not influence the accumulation of IMF (P > 0.05) in meat. As for individual fatty acids, no differences were observed among groups. However, the dietary supplementation of bergamot pulp tended to increase (P = 0.073) the level of α-linolenic acid in meat. In raw and cooked meat TBARS values were higher (P

Published

2024

119. The tocopherol transfer protein mediates vitamin E trafficking between cerebellar astrocytes and neurons

Author

Ulatowski, L, Ghelfi, Mikel, West, Ryan, Atkinson, J, Finno, CJ, and Manor, D

Subjects

Complementary and Integrative Health, Prevention, Genetics, Neurosciences, Nutrition, Neurodegenerative, Brain Disorders, Underpinning research, 1.1 Normal biological development and functioning, Neurological, ATP-Binding Cassette Transporters, Animals, Astrocytes, Carrier Proteins, Cerebellum, Humans, Mice, Neurons, Tissue Plasminogen Activator, Tocopherols, Vitamin E, Vitamins, alpha-Tocopherol, lipid trafficking, lipid transport, tocopherol, tocopherol transfer protein, vitamin E, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biochemistry & Molecular Biology

Abstract

Alpha-tocopherol (vitamin E) is an essential nutrient that functions as a major lipid-soluble antioxidant in humans. The alpha-tocopherol transfer protein (TTP) binds α-tocopherol with high affinity and selectivity and regulates whole-body distribution of the vitamin. Heritable mutations in the TTPA gene result in familial vitamin E deficiency, elevated indices of oxidative stress, and progressive neurodegeneration that manifest primarily in spinocerebellar ataxia. Although the essential role of vitamin E in neurological health has been recognized for over 50 years, the mechanisms by which this essential nutrient is transported in the central nervous system are poorly understood. Here we found that, in the murine cerebellum, TTP is selectively expressed in glial fibrillary acidic protein-positive astrocytes, where it facilitates efflux of vitamin E to neighboring neurons. We also show that induction of oxidative stress enhances the transcription of the TtpA gene in cultured cerebellar astrocytes. Furthermore, secretion of vitamin E from astrocytes is mediated by an ABC-type transporter, and uptake of the vitamin into neurons involves the low-density lipoprotein receptor-related protein 1. Taken together, our data indicate that TTP-expressing astrocytes control the delivery of vitamin E from astrocytes to neurons, and that this process is homeostatically responsive to oxidative stress. These are the first observations that address the detailed molecular mechanisms of vitamin E transport in the central nervous system, and these results have important implications for understanding the molecular underpinnings of oxidative stress-related neurodegenerative diseases.

Published

2022

120. Quantitative Evaluation of the Effect of Dehydration and Rehydration Levels on Tooth Color

Published

2022

121. Vitamin E Supplementation in Hyperinsulinism/Hyperammonemia Syndrome

Author

University of Pennsylvania, Lawson Wilkins Pediatric Endocrine Society, National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), and Elizabeth A Rosenfeld, Attending Physician

Published

2022

122. Oxidant and Antioxidant Profiling in Viscaria alpina Seed Populations Following the Temporal Dynamics of an Alpine Climate

Author

Andrea Pagano, Enrico Doria, Andrea Mondoni, Fiona Jane White, Alma Balestrazzi, and Anca Macovei

Subjects

seed storage, reactive oxygen species, malondialdehyde, tocopherols, quercetin, correlation analyses, Plant culture, SB1-1110

Abstract

The adaptability of seed metabolism to different environmental conditions represents a crucial aspect to understand the effects of climate change on plant populations in wild environments. Among the indicators of stress and repair in seeds, tocopherols and malondialdehyde have been related to membrane stability in seed deterioration. Alpine plants constitute an interesting system to understand stress response dynamics because of the relevant climate variations challenging seed viability in alpine environments. This study considered five accessions of Viscaria alpina seeds collected over five years, highlighting significant correlations between environmental parameters such as precipitations and temperature, and several indicators of the oxidative stress response. These provide new insights on how changes in indicators of the seed stress response can reflect annual variations in temperature and precipitations affecting their parental plants, with possible implications on the current understanding of seed persistence in alpine environments threatened by climate change and on the effects of seed storage.

Published

2023

123. α-Tocopherol Pharmacokinetics in Adults with Cystic Fibrosis: Benefits of Supplemental Vitamin C Administration

Author

Traber, Maret G, Leonard, Scott W, Vasu, Vihas T, Morrissey, Brian M, Lei, Huangshu, Atkinson, Jeffrey, and Cross, Carroll E

Subjects

Biomedical and Clinical Sciences, Nutrition and Dietetics, Lung, Nutrition, Rare Diseases, Complementary and Integrative Health, Cystic Fibrosis, Clinical Trials and Supportive Activities, Clinical Research, Adult, Ascorbic Acid, Humans, Tocopherols, Vitamin E, Vitamins, alpha-Tocopherol, gamma-Tocopherol, vitamin E, carboxyethyl hydroxy chromanol, stable isotope-labeled vitamin E, Food Sciences, Clinical sciences, Nutrition and dietetics, Public health

Abstract

BackgroundNumerous abnormalities in cystic fibrosis (CF) could influence tocopherol absorption, transportation, storage, metabolism and excretion. We hypothesized that the oxidative distress due to inflammation in CF increases vitamin E utilization, which could be positively influenced by supplemental vitamin C administration.MethodsImmediately before and after receiving vitamin C (500 mg) twice daily for 3.5 weeks, adult CF patients (n = 6) with moderately advanced respiratory tract (RT) disease consumed a standardized breakfast with 30% fat and a capsule containing 50 mg each hexadeuterium (d6)-α- and dideuterium (d2)-γ-tocopheryl acetates. Blood samples were taken frequently up to 72 h; plasma tocopherol pharmacokinetics were determined. During both trials, d6-α- and d2-γ-tocopherols were similarly absorbed and reached similar maximal plasma concentrations ~18-20 h. As predicted, during vitamin C supplementation, the rates of plasma d6-α-tocopherol decline were significantly slower.ConclusionsThe vitamin C-induced decrease in the plasma disappearance rate of α-tocopherol suggests that vitamin C recycled α-tocopherol, thereby augmenting its concentrations. We conclude that some attention should be paid to plasma ascorbic acid concentrations in CF patients, particularly to those individuals with more advanced RT inflammatory disease and including those with severe exacerbations.

Published

2022

124. Safety and Efficacy of Tocotrienols in Post-CABG Atrial Fibrillation

Author

Institut Jantung Negara

Published

2022

125. The Effect of Vitamin C and E Therapy on Restless Leg Syndrome in Patients With End Stage Renal Disease on Haemodialysis

Author

Siraj Omar Wali, Head of Sleep Medicine and research center

Published

2022

126. Palm Tocotrienols in Chronic Hemodialysis (USA) (PATCH)

Author

DaVita Dialysis, Great Lakes Dialysis, LLC, National University of Malaysia, Universiti Putra Malaysia, Ministry of Health, Malaysia, National Kidney Foundation, PEMANDU, Henry Ford Hospital, Kidney Foundation Hospital and Research Institute, Bangladesh, Fortis Hospital, India, and Pramod Khosla, Professor

Published

2022

127. Lipid Peroxidation and Options Antioxidant Therapy for Secondary Lymphedema of the Lower Extremities

Published

2022

128. Clinical Efficacy Analysis of Resveratrol in the Treatment of Primary Ovarian Insufficiency

Published

2022

129. Optimized roasting conditions for enhancing nutraceutical value of sesame (Sesamum indicum L.) Seeds

Author

Sharma, Sanjula, Devi, Jomika, and Sandhu, Surinder Kaur

Published

2023

130. Industrial Production of Bioactive Nutrient-Enhanced Extra Virgin Olive Oil under Continuous-Flow Ultrasound and Pulsed Electric Field Treatment

Author

Luisa Boffa, Emanuela Calcio Gaudino, Giorgio Grillo, Arianna Binello, Giorgio Capaldi, Duarte Rego, Marcos Pereira, and Giancarlo Cravotto

Subjects

flow process, ultrasound, pulsed electric field, extra virgin olive oil (EVOO), polyphenols, tocopherols, Chemical technology, TP1-1185

Abstract

Extra virgin olive oil (EVOO) is a cornerstone of the Mediterranean diet. Many studies have highlighted its crucial preventive role against cardiovascular disease, neurodegenerative disorders, metabolic syndrome and cancer, with these effects being due to the synergistic anti-inflammatory and antioxidant activities of minor components, such as polyphenols and tocols. The aim of the present study is to implement new technologies for olive oil mills and develop an efficient large-sized industrial process for the continuous extraction of healthier EVOOs that are enriched with these bioactive compounds. Non-thermal technologies, namely ultrasound (US) and pulsed electric field (PEF), have been tested, separately and in combination, to eliminate the need for traditional malaxation. There is extensive literature to support the efficacy of ultrasound-assisted extraction (UAE) and PEF treatments in EVOO production. A newly designed US device and a PEF industrial chamber have been combined into a single, integrated continuous-flow setup, the performance of which in the extraction of EVOO from green Coratina olives has been evaluated herein. Extraction yields, physico-chemical and organoleptic characteristics, and polyphenol and tocol contents were monitored throughout the trials, and the last three were measured at accelerated aging times (AAT) of 15 and 30 days. The US and combined US-PEF processes not only increased daily oil production (ton/day, by nearly 45%), but also eliminated the need for kneading during malaxation, resulting in significant energy savings (approximately 35%). In addition, these innovations enriched the resulting EVOO with nutritionally relevant minor components (8–12% polyphenols, 3–5% tocols), thereby elevating its quality and market value, as well as overall stability. The introduction of continuous-flow US and PEF technologies is a remarkable innovation for the EVOO industry, as they offer benefits to both producers and consumers. The EVOO resulting from non-thermal continuous-flow production meets the growing demand for healthier, nutrient-enriched products.

Published

2024

131. Investigation into the Reduction of Palm Oil in Foods by Blended Vegetable Oils through Response Surface Methodology and Oxidative Stability Tests

Author

Vassilis Athanasiadis, Dimitrios Kalompatsios, Martha Mantiniotou, and Stavros I. Lalas

Subjects

corn oil, rapeseed oil, fatty acids, tocopherols, volatile compounds, FT-IR, Therapeutics. Pharmacology, RM1-950

Abstract

Recently, there has been a significant transition in the dietary preferences of consumers toward foods containing health-promoting compounds. In addition, as people’s environmental awareness increases, they are increasingly looking for sustainable solutions. Palm oil, an oil used extensively by the food industry, does not fit these criteria. This study investigated the development of a complex oil blend consisting of commonly used vegetable oils such as corn, rapeseed, sunflower, and palm oil. The aim was to find the optimal blended oil and compare this combination with palm oil in terms of its oxidative stability, antioxidant capacity, and the composition of bioactive compounds (i.e., fatty acids, tocopherols, and carotenoids). Palm oil was found to have greater oxidative stability as a result of its increased concentration of saturated fatty acids. The optimal blended oil, which consisted of corn and rapeseed oil at a ratio of 4:3 w/w, inhibited the superior antioxidant activity, showing a ~33% increase in DPPH• inhibition activity. ATR-FTIR spectra further verified the existence of a significant quantity of saturated fatty acids in palm oil and unsaturated fatty acids in the blended oil. Finally, several correlation analyses revealed interesting connections between oil samples and investigated parameters. This work has the potential to establish a basis for the mass production of oil blends that possess high concentrations of antioxidant compounds and reduce the use of palm oil.

Published

2024

132. The Effect of High-Temperature Heating on Amounts of Bioactive Compounds and Antiradical Properties of Refined Rapeseed Oil Blended with Rapeseed, Coriander and Apricot Cold-Pressed Oils

Author

Monika Fedko, Aleksander Siger, Aleksandra Szydłowska-Czerniak, Dobrochna Rabiej-Kozioł, Alicja Tymczewska, Katarzyna Włodarczyk, and Dominik Kmiecik

Subjects

phytosterols, tocochromanols, tocopherols, radical scavenging activity, DPPH, ABTS, Chemical technology, TP1-1185

Abstract

Cold-pressed oils are rich sources of bioactive substances, which may protect triacylglycerols from degradation during frying. Nevertheless, these substances may decompose under high temperature. This work considers the content of bioactive substances in blends and their changes during high-temperature heating. Blends of refined rapeseed oil with 5% or 25% in one of three cold-pressed oils (rapeseed, coriander and apricot) were heated at 170 or 200 °C in a thin layer on a pan. All non-heated blends and cold-pressed oils were tested for fatty acid profile, content and composition of phytosterols, tocochromanols, chlorophyll and radical scavenging activity (RSA) analyzed by 2,2-diphenyl-1-picrylhydrazyl (DPPH), and 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) assays. Moreover, the stability of phytosterols, tocochromanols, DPPH and ABTS values was determined in heated blends. All tocochromanols were lost during the heating process, in particular, at 200 °C. However, there were some differences between homologues. α-Tocopherol and δ-tocopherol were the most thermolabile and the most stable, respectively. Phytosterols were characterized by very high stability at both temperatures. We observed relationships between ABTS and DPPH values and contents of total tocochromanols and α-tocopherol. The obtained results may be useful in designing a new type of fried food with improved health properties and it may be the basis for further research on this topic.

Published

2024

133. Optimization of Oil and Tocopherol Extraction from Maqui (Aristotelia chilensis (Mol.) Stuntz) by Supercritical CO2 Procedure

Author

Camila Sánchez, Alicia Rodríguez, Francisca Reinoso, Gretel Dovale-Rosabal, Nalda Romero, Alejandra Espinosa, María Elsa Pando, Benjamín Claria, Rodrigo Valenzuela, Cielo Char, and Santiago P. Aubourg

Subjects

freeze-dried maqui, supercritical fluid extraction, CO2, Response surface methodology (RSM) optimization, oil yield, tocopherols, Therapeutics. Pharmacology, RM1-950

Abstract

This study focused on the oil extraction from freeze-dried maqui (Aristotelia chilensis) by supercritical fluid extraction with carbon dioxide (SFE-CO2). The basic objective was to optimize the oil yield and the tocopherol concentration. A Box/Behnken experimental design was developed with three processing variables: supercritical pressure (74, 187, and 300 bar), temperature (35, 48, and 60 °C), and extracting time (30, 135, and 240 min). Multiple optimizations, based on the combination of factor levels at 274 bar, 240 min, and 60 °C, led to the highest oil yield and tocopherol values. The validation of the optimized conditions of maqui oil extraction led to an oil yield of 8% and values of 735, 53, and 97 (mg·kg−1 oil) for α-tocopherol, α-tocotrienol, and γ-tocopherol, respectively. A higher concentration of tocopherol compounds was observed when compared to the employment of the conventional extracting method. The optimized SFE-CO2 method led to an oil extract exhibiting higher Hydrophilic-Oxygen Radical Absorbance Capacity (H-ORAC) assay and total phenol content (22 μmol Trolox equivalents·g−1 oil and 28 mg gallic acid equivalents·g−1 oil) than the oil obtained by the conventional procedure. A practical and accurate oil extraction is proposed for obtaining tocopherol-enriched oil including high concentrations of valuable lipophilic antioxidants.

Published

2024

134. Agronomic and Functional Quality Traits in Various Underutilized Hot Pepper Landraces

Author

Marwa Chouikhi, Imen Tlili, Imen Henane, Sándor Takács, Hussein Daood, Zoltàn Pék, Lajos Helyes, Anna Montefusco, Monica De Caroli, Gian Pietro Di Sansebastiano, Muhammad Azam, Mohammed Wasim Siddiqui, Riadh Ilahy, Marcello Salvatore Lenucci, and Thouraya R’him

Subjects

carotenoids, Capsicum annuum L., capsaicinoids, tocopherols, antioxidant activity, vitamin C, Plant culture, SB1-1110

Abstract

Landraces are considered a crucial component of biodiversity conservation, serving as a reservoir of genetic diversity. Consequently, the collection, cultivation, and detailed characterization of such landraces constitute an inherent aspect of the world’s natural resource heritage. This effort holds promise for the development of elite varieties capable of thriving amidst continuous global climate fluctuations. In this context, we conducted a comprehensive assessment of the main agronomic attributes, physico-chemical properties, and functional quality traits of the major hot pepper landraces adapted to diverse climatic conditions in Tunisia. These landraces include ‘Dhirat’, ‘Semmane’, ‘Beldi’, ‘Nabeul’, ‘Jerid’, ‘Mahdia’, ‘Cayenne’, ‘Kairouan’, and ‘Baklouti’. Most of the pepper landraces exhibited satisfactory yields, ranging from 1163.25 to 1841.67 g plant−1 in ‘Jerid’ and ‘Kairouan’, respectively, indicating robust productivity, especially under prevailing climatic changes and high temperatures during both growing cycles. The levels of antioxidants comprising capsaicinoids, carotenoids, phenolics, and tocopherols, as well as radical scavenging activity, emerged as key discriminating factors among pungent pepper landraces. Irrespective of genotype, capsaicin and dihydrocapsaicin constituted the major capsaicinoids, accounting for 44–91% of the total capsaicinoids content. Total capsaicinoids ranged from 1.81 µg g−1 fw to 193.71 µg g−1 fw, with ‘Baklouti’ and ‘Jerid’ identified as the most pungent landraces. Total carotenoids ranged from 45.94 µg g−1 fw to 174.52 µg g−1 fw, with ‘Semmane’ and ‘Jerid’ exhibiting the highest levels. Considerable variation was observed in β-carotene content, spanning from 3% to 24% of the total carotenoids. α-Tocopherol content ranged from 19.03 µg g−1 fw in ‘Kairouan’ to 30.93 µg g−1 fw in ‘Beldi’, exerting a notable influence on the overall tocopherol content. Conversely, the β- and γ-tocopherol isomers were detected at very low concentrations. The total vitamin C content ranged from 132 mg 100g−1 fw in ‘Mahdia’ to 200 mg 100 g−1 fw in ‘Nabeul’, indicating relatively low genetic variability. However, large variability was detected in total phenolics content, ranging from 168.58 mg GAE kg−1 fw in ‘Beldi’ to 302.98 mg GAE kg−1 fw in ‘Cayenne’. Landraces such as ‘Dhirat’, ‘Nabeul’, ‘Semmane’, ‘Kairouan’, ‘Cayenne’, and ‘Mahdia’ appear suitable for both fresh consumption and processing, owing to their favorable average fruit weight, soluble solids content, and bioactive content. Among the pepper landraces tested, ‘Cayenne’ achieved the highest value of radical scavenging activity in both hydrophilic and lipophilic fractions (RSAHF and RSALF), with variations ranging from 59% to 120% for RSAHF and from 4% to 63% for RSALF. This study aims to preserve and enhance the value of local genetic resources and contribute to identify desirable traits for incorporation into breeding programs to develop high-quality, high-yielding landraces and elite lines.

Published

2024

135. Maximizing Antioxidant Potential in Picual Virgin Olive Oil: Tailoring Agronomic and Technological Factors with Response Surface Methodology

Author

Antonia de Torres, Francisco Espínola, Manuel Moya, Cristóbal Cara Corpas, Alfonso M. Vidal, and Salvador Pérez-Huertas

Subjects

malaxation, response surface methodology, virgin olive oil, polyphenols, tocopherols, cultivar, Chemical technology, TP1-1185

Abstract

Over the past years, a prolonged drought has affected Spain, raising significant concerns across various sectors, especially agriculture. This extended period of dry weather is profoundly affecting the growth and development of olive trees, potentially impacting the quality and quantity of olive oil produced. This study aims to assess the impact of agronomic factors, i.e., olive maturation and irrigation management, as well as the technological factors involved in the production process, on the antioxidant content of Picual virgin olive oil. Mathematical models were developed to maximize the concentration of polyphenols, orthodiphenols, chlorophylls, carotenes, and tocopherols in olive oils. Findings indicate that increasing the malaxation temperature from 20 to 60 °C and reducing the mixing time from 60 to 20 min positively influenced the polyphenol and orthodiphenol content. Although irrigation did not significantly affect the polyphenols, pigments, and α-tocopherol contents, it may enhance the β- and γ-tocopherol content. Optimal conditions for producing antioxidant-enriched virgin olive oils involved olives from rainfed crops, with a moisture index of 3–4, and a 60-min malaxation process at 60 °C. Under these conditions, the total phenol content doubled, pigment content increased fourfold, and α-tocopherol content rose by 15%. These findings provide relevant knowledge to interpret the year-to-year variation in both organoleptic and analytical profiles of virgin olive oils.

Published

2024

136. Chemical Characterisation of New Oils Extracted from Cañihua and Tarwi Seeds with Different Organic Solvents

Author

Jimena Ortiz-Sempértegui, Gabriela Ibieta, Cecilia Tullberg, J. Mauricio Peñarrieta, and Javier A. Linares-Pastén

Subjects

vegetable oils, Andean seeds, green solvent, fatty acids profile, tocopherols, antioxidant capacity, Chemical technology, TP1-1185

Abstract

Vegetable oils are rich in health-beneficial compounds, including fatty acids, phenolic compounds, natural antioxidants, and fat-soluble vitamins. However, oil extraction methods can influence their composition. This study aims to understand the chemical basis for developing a green process to extract oils from two Andean seeds, cañihua (Chenopodium pallidicaule) and tarwi (Lupinus mutabilis). Ethanol, considered a green solvent, is compared to petroleum ether used at the laboratory level and hexane used at the industrial scale for extracting oils. The extraction efficiency is assessed in terms of yield, fatty acids profile, polar and neutral lipids, tocopherols, phenolic compounds, and antioxidant capacity. The chemical composition of edible commercial oils, such as sunflower, rapeseed, and olive oils, was used as a reference. Hexane had the highest extraction yield, followed by petroleum ether and ethanol. However, the oils extracted with ethanol having yields of tarwi 15.5% and cañihua 5.8%, w/w showed the significatively superior content of tocopherols (α, γ, and δ); phenolic compounds; and antioxidant capacity. In addition, ethanol-extracted (EE) oils have higher levels of polar lipids, such as phosphatidylcholine and phosphatidylinositol, than those extracted with the other solvents. Remarkably, EE oils presented comparable or slightly higher levels of monounsaturated fatty acids than those extracted with hexane. Finally, compared to the commercial oils, tarwi and cañihua EE oils showed lower but acceptable levels of oleic, linoleic and palmitic acids and a wider variety of fatty acids (10 and 13, respectively). The composition of tarwi and cañahua oils extracted with ethanol includes compounds associated with nutritional and health benefits, providing a sustainable alternative for oil production.

Published

2024

137. The Nutritional Potential of Avocado By-Products: A Focus on Fatty Acid Content and Drying Processes

Author

Roko Marović, Marija Badanjak Sabolović, Mladen Brnčić, Antonela Ninčević Grassino, Kristina Kljak, Sandra Voća, Sven Karlović, and Suzana Rimac Brnčić

Subjects

avocado, by-product, hot-air microwave drying, nutritional value, oleic acid, tocopherols, Chemical technology, TP1-1185

Abstract

The aim of this study was to analyze the content of fatty acids and tocopherols in various components (pulp, seeds, peel) of avocado (Persea americana), which are often neglected as by-products. In addition, the effects of different drying processes on these components were investigated and the health benefits of the main fatty acids contained in avocados were highlighted. The samples were subjected to three drying processes: hot air (HAD), vacuum (VD), and hot-air microwave (HAMD). In all parts of fresh avocado, oleic acid was the most abundant (41.28–57.93%), followed by palmitic acid (19.90–29.45%) and linoleic acid (8.44–14.95%). Drying led to a significant reduction in the oleic acid content, with palmitic acid showing the greatest stability. HAD resulted in higher levels of oleic acid and linoleic acid in dried pulp and peel samples compared with VD and HAMD, while HAMD had the highest content of α-linolenic acid in all parts. In addition, HAMD had the shortest drying time. HAMD duration was 35 min, which was 76.7% shorter than HAD (150 min) and 82.5% shorter than VD (200 min). Considering fatty acid retention and drying efficiency, HAMD appears to have been the most effective method, especially for the avocado peel. Remarkably, the avocado peel consistently contained higher total tocopherol, with δ-tocopherol generally being the most abundant form. The high content of tocopherols, oleic acid, and linoleic acid in the avocado peel suggests promising health benefits.

Published

2024

138. Nutraceuticals in Soybean: Biosynthesis, Advanced Genetic Research, and Usage in Food

Author

Dwiyanti, Maria Stefanie, Gunawan-Puteri, Maria D. P. T., and Kole, Chittaranjan, editor

Published

2023

139. Bioactive Phytochemicals from Almond (Prunus dulcis) Oil Processing By-products

Author

Kara, Hüseyin, Ayyildiz, Hamide Filiz, Tarhan, İsmail, Erci, Fatih, Bakır, M. Raşit, Mérillon, Jean-Michel, Series Editor, Ramawat, Kishan Gopal, Series Editor, Pavlov, Atanas I., Editorial Board Member, Ekiert, Halina Maria, Editorial Board Member, Aggarwal, Bharat B., Editorial Board Member, Jha, Sumita, Editorial Board Member, Wink, Michael, Editorial Board Member, Waffo-Téguo, Pierre, Editorial Board Member, Riviere, Céline, Editorial Board Member, and Ramadan Hassanien, Mohamed Fawzy, editor

Published

2023

140. Composition and Functional Properties of Cardamom Fixed Oil

Author

Kiralan, Mustafa, Ketenoglu, Onur, Kiralan, Sündüz Sezer, and Ramadan, Mohamed Fawzy, editor

Published

2023

141. The Influence of Maltodextrin and Final Cooking Temperature on Beta-Carotene and Tocopherol Retention of Granulated Coconut Sugar

Author

Dwiyanti, Hidayah, Prihananto, V., Siswantoro, Ramadhan, Gumintang Ratna, Ma, Wanshu, Series Editor, Sulistyo, Susanto B., editor, Ritonga, Abdul Mukhlis, editor, Satriani, Ratna, editor, Oktaviani, Eka, editor, and Leana, Ni Wayan Anik, editor

Published

2023

142. Antioxidant effect of onion peel extracts (Allium cepa L.) on the stability of soybean oil under thermo-oxidative degradation

Author

Wellington Mamoro Umeda and Neuza Jorge

Subjects

dpph, frap, natural antioxidant, tocopherols, total phenolic compounds, Technology (General), T1-995, Science, Science (General), Q1-390

Abstract

Onion peels have considerable amounts of bioactive compounds with high antioxidant capacity. This study aimed to assess the antioxidant capacity of yellow, white, and purple onion peel extracts and to analyze their antioxidant effects on the thermo-oxidative stability of soybean oil. The extracts were assessed regarding the total phenolic compounds and antioxidant activities. The oil was supplemented with extracts of onion peel, tocopherol, ascorbyl palmitate, and tert-butylhydroquinone, whether isolated and combined. The treatments were subjected to thermo-oxidation and the samples were analyzed for oxidative stability, total polar compounds, and tocopherols content. The purple onion peel extract showed the highest efficiency in phenolic compounds and antioxidant activity. In the oxidative stability analysis, OAP, OTBHQ and OPE+OTBHQ (synergistic effect) stood out. Total polar compounds were elevated in SO, OTOC, and OTOC+OAP at 8 hours, and all treatments exceeded the 25% limit at 16 hours. δ-tocopherol showed greater retention at the end of 16 hours in the OPE treatment with 51.54%. Therefore, the use of purple onion peel extract can delay oxidation and contribute to the retention of tocopherols, enabling the use of lower concentrations of synthetic antioxidants.

Published

2023

143. Neuroprotective and Cardioprotective Effects Of Palm Vitamin E Tocotrienols

Author

Malaysia Palm Oil Board and Yuen Kah Hay, Professor

Published

2022

144. Antioxidants Vitamins and Muscle Damage (Antioxidant)

Author

María Martínez Ferrán, PhD student, principal investigator

Published

2022

145. Efficacy and Safety of Tocotrienols in CADASIL

Published

2022

146. Flaxseed and avocado oil blends: Physical and physicochemical characterization, nutritional quality and oxidative stability

Author

Milena da Silva Moura, Carlos Alexandre Moreira da Silva, and Matheus Boeira Braga

Subjects

Flaxseed oil, Avocado oil, Blends of oil, Oxidative stability, Antioxidant activity, Tocopherols, Food processing and manufacture, TP368-456

Abstract

This research investigated the physical and physicochemical characteristics, nutritional quality, and oxidative stability of flaxseed oil (FO) and avocado oil (AO) and their blends. Five formulations, varying the mass ratio between AO and FO (AO: FO, 0 %:100 %; AO: FO, 25 %:75 %; AO: FO, 50 %:50 %; AO: FO, 75 %:25 %; AO:FO, 100 %:0 %) were analyzed by fatty acids composition, total content of chlorophylls and carotenoids, tocopherols content, antioxidant activity, physical properties, nutritional parameters, and quality parameters. The peroxide index (PI) and extinction coefficients (K232 and K270) were used to assess the oxidative stability. The results revealed that pure avocado oil presented an unbalanced ratio of ω6-ω3 fatty acids of 18.40:1. Flaxseed and avocado oil blends were able to balance ω6-ω3 fatty acids content and positively affected the atherogenicity and thrombogenicity index values. Adding avocado oil to flaxseed oil significantly increased the total content of chlorophyll and carotenoid and antioxidant activity. At the end of the oxidative stability analysis, a variation of the PI of 17.18 times was observed for pure flaxseed oil and 2.09 times for pure avocado oil. Variations of the PI remained below 1.7 times for all blends. Regarding K232 and K270, variations of 2.0 and 4.01 times were observed for pure flaxseed oil, respectively. On the other hand, values below 1.15 and 1.48 were verified for pure avocado and the blends, respectively. The increased oxidative stability could be related to increased monounsaturated and saturated fatty acids content (oleic, palmitic, and palmitoleic fatty acids) and natural antioxidants present in the oil blends.

Published

2023

147. Lupin as a Source of Bioactive Antioxidant Compounds for Food Products.

Author

Estivi, Lorenzo, Brandolini, Andrea, Gasparini, Andrea, and Hidalgo, Alyssa

Subjects

*BIOACTIVE compounds, *COMPOSITION of seeds, *FOOD industry, *SEED proteins, *NUTRITIONAL value, *CAROTENOIDS

Abstract

Four species of lupin (white lupin, yellow lupin, blue lupin and Andean lupin) are widely cropped thanks to the excellent nutritional composition of their seeds: high protein content (28–48 g/100 g); good lipid content (4.6–13.5 g/100 g, but up to 20.0 g/100 g in Andean lupin), especially unsaturated triacylglycerols; and richness in antioxidant compounds like carotenoids, tocols and phenolics. Particularly relevant is the amount of free phenolics, highly bioaccessible in the small intestine. However, the typical bitter and toxic alkaloids must be eliminated before lupin consumption, hindering its diffusion and affecting its nutritional value. This review summarises the results of recent research in lupin composition for the above-mentioned three classes of antioxidant compounds, both in non-debittered and debittered seeds. Additionally, the influence of technological processes to further increase their nutritional value as well as the effects of food manufacturing on antioxidant content were scrutinised. Lupin has been demonstrated to be an outstanding raw material source, superior to most crops and suitable for manufacturing foods with good antioxidant and nutritional properties. The bioaccessibility of lupin antioxidants after digestion of ready-to-eat products still emerges as a dearth in current research. [ABSTRACT FROM AUTHOR]

Published

2023

148. Increase of tocopherols, phytosterols, and carotenoids in high‐oil subtropical maize after recurrent selection.

Author

García‐Lara, Silverio, Rodríguez‐Treviño, Abel, Ortíz‐Islas, Sofia, Preciado‐Ortíz, Ricardo E., and Serna‐Saldívar, Sergio O.

Abstract

Background and Objectives: Subtropical high‐oil maize (HOM) genotypes have been successfully developed, but further evaluation of the content of liposoluble nutraceuticals is essential. The aim of this study was to determine the concentration and profile of tocopherols, phytosterols, and carotenoids in HOM and the effects of high‐oil selection in white and yellow subtropical populations. Findings: Results indicated that recurrent selection increase of germ proportion (9%–12%) in the total kernel had a direct effect on the oil content and increased the contents of carotenoids, tocopherols, and phytosterols. In particular, carotenoids improved only in yellow populations, with an improvement in total carotenoid (from 13 to 17 mg/kg dry weight [dw]), provitamin A, β‐carotenes, and β‐cryptoxanthin. α‐ and γ‐Tocopherols showed an overall increase in the total content (up to 39 mg/kg dw). Total phytosterols increased significantly in both populations, with similar changes in composition (up to 374 mg/kg dw). β‐Sitosterol was the predominant phytosterol associated with HOM. Conclusions: Recurrent selection for high oil in subtropical maize effectively altered the liposoluble nutraceuticals compounds of improved kernels in terms of carotenoids, tocopherols, and phytosterols, with modifications in their profiles. Significance and Novelty: This research demonstrated that recurrent selection is an effective traditional breeding tool that improves oil, tocopherols, phytosterols, and carotenoids in subtropical maize. This investigation represents a first step toward understanding how the improvement of oil content affects the lipophilic nutraceutical content. [ABSTRACT FROM AUTHOR]

Published

2023

149. Impact of Chitosan-Based Foliar Application on the Phytochemical Content and the Antioxidant Activity in Hemp (Cannabis sativa L.) Inflorescences.

Author

Beleggia, Romina, Iannucci, Anna, Menga, Valeria, Quitadamo, Filippo, Suriano, Serafino, Citti, Cinzia, Pecchioni, Nicola, and Trono, Daniela

Subjects

INFLORESCENCES, CANNABIS (Genus), CANNABIDIOL, HEMP, CANNABINOIDS, CAROTENOIDS, VITAMIN E

Abstract

In the present study, the phytochemical content and the antioxidant activity in the inflorescences of the monoecious hemp cultivar Codimono grown in southern Italy were assessed, and their elicitation was induced by foliar spray application of 50 mg/L and 250 mg/L of chitosan (CHT) at three different molecular weights (low, CHT L; medium, CHT M; high CHT H). The analysis of the phytochemical profile confirmed that cannabinoids were the most abundant class (54.2%), followed by flavonoids (40.3%), tocopherols (2.2%), phenolic acids (1.9%), and carotenoids (1.4%). Cannabinoids were represented almost exclusively by cannabidiol, whereas cannabigerol and Δ9-tetrahydrocannabinol were detected at very low levels (the latter was below the legal limit of 0.3%). The most abundant flavonoids were orientin and vitexin, whereas tocopherols were mainly represented by α-tocopherol. The antioxidant activity was found to be positively correlated with flavonoids and tocopherols. Statistical analysis revealed that the CHT treatments significantly affected the phytochemical content and the antioxidant activity of hemp inflorescences. Notably, a significant increase in the total phenolic content (from +36% to +69%), the α-tocopherol (from +45% to +75%) and β+γ-tocopherol (from +35% to +82%) contents, and the ABTS radical scavenging activity (from +12% to +28%) was induced by all the CHT treatments. In addition, treatments with CHT 50 solutions induced an increase in the total flavonoid content (from +12% to +27%), as well as in the vitexin (from +17% to +20%) and orientin (from +20% to +30%) contents. Treatment with CHT 50 L almost always resulted in the greatest increases. Overall, our findings indicated that CHT could be used as a low-cost and environmentally safe elicitor to improve the health benefits and the economic value of hemp inflorescences, thus promoting their employment in the food, pharmaceutical, nutraceutical, and cosmetic supply chains. [ABSTRACT FROM AUTHOR]

Published

2023

150. Transcriptional and protein structural characterization of homogentisate phytyltransferase genes in barley, wheat, and oat.

Author

Zeng, Zhanghui, Jia, Yong, Huang, Xiaoping, Chen, Zhehao, Xiang, Taihe, Han, Ning, Bian, Hongwu, and Li, Chengdao

Subjects

*OATS, *BARLEY, *WHEAT, *VITAMIN E, *AMINO acid residues, *PLANT genomes

Abstract

Background: Homogentisate phytyltransferase (HPT) is the critical enzyme for the biosynthesis of tocopherols (vitamin E), which are the major lipid-soluble antioxidants and help plants adapt to various stress conditions. HPT is generally strictly conserved in various plant genomes; however, a divergent lineage HPT2 was identified recently in some Triticeae species. The molecular function and transcriptional profiles of HPT2 remain to be characterized. Results: In this study, we performed comprehensive transcriptome data mining of HPT1 and HPT2 in different tissues and stages of barley (Hordeum vulgare), wheat (Triticum aestivum), and oat (Avena sativa), followed by qRT-PCR experiments on HPT1 and HPT2 in different tissues of barley and wheat. We found that the common HPT1 genes (HvHPT1, TaHPT1s, and AsHPT1s) displayed a conserved transcriptional pattern in the three target species and were universally transcribed in various tissues, with a notable preference in leaf. In contrast, HPT2 genes (HvHPT2, TaHPT2, and AsHPT2) were specifically transcribed in spike (developmentally up-regulated) and shoot apex tissues, displaying a divergent tissue-specific pattern. Cis-regulatory elements prediction in the promoter region identified common factors related to light-, plant hormone-, low temperature-, drought- and defense- responses in both HPT1s and HPT2s. We observed the transcriptional up-regulation of HvHPT1 and HvHPT2 under various stress conditions, supporting their conserved function in environmental adaption. We detected a clear, relaxed selection pressure in the HPT2 lineage, consistent with the predicted evolution pattern following gene duplication. Protein structural modelling and substrate docking analyses identified putative catalytic amino acid residues for HvHPT1 and HvHPT2, which are strictly conserved and consistent with their function in vitamin E biosynthesis. Conclusions: We confirmed the presence of two lineages of HPT in Triticeae and Aveninae, including hexaploid oat, and characterized their transcriptional profiles based on transcriptome and qRT-PCR data. HPT1s were ubiquitously transcribed in various tissues, whilst HPT2s were highly expressed in specific stages and tissue. The active transcription of HPT2s, together with its conserved cis-elements and protein structural features, support HPT2s' role in tocopherol production in Triticeae. This study is the first protein structural analysis on the membrane-bound plant HPTs and provides valuable insights into its catalytic mechanism. [ABSTRACT FROM AUTHOR]

Published

2023