Your search keyword '"high oleic sunflower oil"' showing total 99 results

1. Study of oleogel based on components Helianthus annuus L. and Rosmarinus officinalis L. as frying oil

Author

A. V. Samoylov, T. B. Tsyganova, E. A. Yakovlev, and E. V. Dudkina

Subjects

helianthus annuus l., rosmarinus officinalis l., frying oil, high oleic sunflower oil, oleogel, sunflower wax, rosemary extract, Food processing and manufacture, TP368-456

Abstract

The aim of this study was to study the oxidation resistance and functional properties of oleogels based on high oleic oil and wax from Helianthus annuus L. with the addition of a natural complex antioxidant — an extract from Rosmarinus officinalis L. and lecithin from Helianthus annuus L. — when used as a frying medium for French-fries. High oleic sunflower oil was structured into an oleogel with sunflower wax at a dosage of 5%. Studies were carried out to determine the possibility of replacing the synthetic antioxidant tert-butylhydroquinone at a dosage of 200 mg/kg with a natural antioxidant based on rosemary extract and sunflower lecithin in an oleogel with a defoamer. It was determined that the introduction of sunflower wax increased the induction period of high-oleic sunflower oil by 1.6 times, and the additional introduction of defoamer and antioxidants increased this figure by 1.8–2 times. The rate of accumulation of oxidation products in oil, which is characterized by the level of total polar materials, decreased when wax and antioxidants were added. The degree of thermal oxidation most quickly reached the limit value in oil without additives; in oleogels, it significantly decreased. The introduction of sunflower wax into oil contributed to a noticeable decrease in the absorption of oil by potatoes: fried in oleogel, it absorbed 34–38% less oil than fried in oil without additives. The addition of 0.07% rosemary extract with sunflower lecithin to the oleogel increased the operating time of frying oil by at least 2 times, approximately the same as that of the oleogel with tert-butylhydroquinone. This makes it possible to replace the synthetic antioxidant in deepfrying oleogel with natural rosemary extract with sunflower lecithin. The developed oleogel is a frying oil that has a longer service life and allows you to get fried products with a lower amount of fat.

Published

2023

2. Olive Pomace Oil versus High Oleic Sunflower Oil and Sunflower Oil: A Comparative Study in Healthy and Cardiovascular Risk Humans.

Author

González-Rámila, Susana, Mateos, Raquel, García-Cordero, Joaquín, Seguido, Miguel A., Bravo-Clemente, Laura, and Sarriá, Beatriz

Subjects

SUNFLOWER seed oil, OLIVE oil, CARDIOVASCULAR diseases risk factors, APOLIPOPROTEIN B, CLINICAL trials, LDL cholesterol

Abstract

Olive pomace oil (OPO) is mainly a source of monounsaturated fat together with a wide variety of bioactive compounds, such as triterpenic acids and dialcohols, squalene, tocopherols, sterols and aliphatic fatty alcohols. To date, two long-term intervention studies have evaluated OPO's health effects in comparison with high oleic sunflower oil (HOSO, study-1) and sunflower oil (SO, study-2) in healthy and cardiovascular risk subjects. The present study integrates the health effects observed with the three oils. Two randomized, blinded, cross-over controlled clinical trials were carried out in 65 normocholesterolemic and 67 moderately hypercholesterolemic subjects. Each study lasted fourteen weeks, with two four-week intervention phases (OPO versus HOSO or SO), each preceded by a three-week run-in or washout period. Regular OPO consumption reduced total cholesterol (p = 0.017) and LDL cholesterol (p = 0.018) levels as well as waist circumference (p = 0.026), and only within the healthy group did malondialdehyde (p = 0.004) levels decrease after OPO intake versus HOSO. Contrarily, after the SO intervention, apolipoprotein (Apo) B (p < 0.001) and Apo B/Apo A ratio (p < 0.001) increased, and to a lower extent Apo B increased with OPO. There were no differences between the study groups. OPO intake may improve cardiometabolic risk, particularly through reducing cholesterol-related parameters and waist circumference in healthy and hypercholesterolemic subjects. [ABSTRACT FROM AUTHOR]

Published

2022

3. Development of dysbiosis in the organism of rats receiving a high-fat diet

Author

A. P. Levitsky, A. V. Markov, and T. I. Pupin

Subjects

high-fat diet, dysbiosis, urease, lysozyme, liver, high oleic sunflower oil, Education, Sports, GV557-1198.995, Medicine

Abstract

Background. To determine the effect on the degree of dysbiosis in the organs and tissues of rats treated with high-fat diet (HFD) using fats with various fatty acid compositions.Methods. We used ordinary (high-linoleic) sunflower oil, high-oleic sunflower oil, butter, palm and coconut oils. Rats were fed with 15 % of each of the fats for 64 days. In the blood serum from v.cava and v. porta, in the liver, heart, brain, skeletal muscles and intestinal mucosa, urease activity (an indicator of bacterial insemination), lysozyme activity (a factor of non-specific immunity) were determined, and the degree of dysbiosis was calculated from the ratio of relative urease and lysozyme activities. Results. The activity of urease in the blood of v. porta increased in rats treated with HFD, and was significantly higher than in the blood of v.cava. In most of the studied tissues, urease activity increased after HFD, with the exception of rats receiving high-oleic sunflower oil (HOSO). In contrast, lysozyme activity was reduced in most tissues, with the exception of rats treated with HOSO. The degree of dysbiosis increased after HFD with the exception of rats treated with HOSO.Conclusion. HFD increases the translocation of bacteria from the intestine. The liver partially neutralizes the microflora coming from the intestines. In blood serum from v. cava and v. porta, urease activity (an indicator of bacterial contamination), lysozyme activity (nonspecific immunity factor) were determined in the liver, heart, brain, skeletal muscle and intestinal mucosa, and the degree of dysbiosis was calculated by the ratio of the relative activities of urease and lysozyme.Results. Blood urease activity v. porta was elevated in rats treated with HFD and was significantly higher than in blood v. cava. In most of the tissues studied, urease activity increased after HFD with the exception of rats treated with high oleic sunflower oil (HOSO), the development of dysbiosis in all tissues of the body. The exception is HOSO, which does not cause the development of dysbiosis and inflammation.

Published

2020

4. Olive Pomace Oil versus High Oleic Sunflower Oil and Sunflower Oil: A Comparative Study in Healthy and Cardiovascular Risk Humans

Author

Susana González-Rámila, Raquel Mateos, Joaquín García-Cordero, Miguel A. Seguido, Laura Bravo-Clemente, and Beatriz Sarriá

Subjects

olive pomace oil, high oleic sunflower oil, sunflower oil, lipid profile, lipid peroxidation, anthropometric parameters, Chemical technology, TP1-1185

Abstract

Olive pomace oil (OPO) is mainly a source of monounsaturated fat together with a wide variety of bioactive compounds, such as triterpenic acids and dialcohols, squalene, tocopherols, sterols and aliphatic fatty alcohols. To date, two long-term intervention studies have evaluated OPO’s health effects in comparison with high oleic sunflower oil (HOSO, study-1) and sunflower oil (SO, study-2) in healthy and cardiovascular risk subjects. The present study integrates the health effects observed with the three oils. Two randomized, blinded, cross-over controlled clinical trials were carried out in 65 normocholesterolemic and 67 moderately hypercholesterolemic subjects. Each study lasted fourteen weeks, with two four-week intervention phases (OPO versus HOSO or SO), each preceded by a three-week run-in or washout period. Regular OPO consumption reduced total cholesterol (p = 0.017) and LDL cholesterol (p = 0.018) levels as well as waist circumference (p = 0.026), and only within the healthy group did malondialdehyde (p = 0.004) levels decrease after OPO intake versus HOSO. Contrarily, after the SO intervention, apolipoprotein (Apo) B (p < 0.001) and Apo B/Apo A ratio (p < 0.001) increased, and to a lower extent Apo B increased with OPO. There were no differences between the study groups. OPO intake may improve cardiometabolic risk, particularly through reducing cholesterol-related parameters and waist circumference in healthy and hypercholesterolemic subjects.

Published

2022

5. Oxidative stability of high oleic sunflower oil during deep-frying process of purple potato Purple Majesty

Author

Raffaele Romano, Gioacchino Filosa, Fabiana Pizzolongo, Alessandra Durazzo, Massimo Lucarini, Patricia Severino, Eliana B. Souto, and Antonello Santini

Subjects

High oleic sunflower oil, Purple potato “Purple Majesty”, Deep frying, Thermo-oxidation, Oxidative stability, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The behaviour of high oleic sunflower oil in deep frying process of purple potato Purple Majesty has been evaluated simulating a fast food cooking process. This oil was used for 8h/day for 6 days, filling up from the 2nd day. A discontinuous and prolonged procedure was tested. Free Fatty Acidity (FFA), Peroxide Value (PV), Total Polar Compounds (TPC), Fatty Acid (FA) composition, Volatile Organic Compounds (VOC) have been determined at different times in thermo-oxidized (T-OX) oil, and in frying oil. The FFA in T-OX oil samples showed values in the range 0.09%–0.24%, whereas in the frying oil values varied in a range between 0.09% and 0.16%. TPCs values varied from 1.76% to 38.24% in T-OX oils, whereas in frying oil used for frying purple potatoes (FOPP) showed values in the range from 1.76 to 29.13%. The peroxides values did not follow a regular pattern, both during thermo-oxidation and during frying. Among the Long Chain Fatty Acids (LCFAs), oleic acid was the most represented (84.13%). Short chain fatty acids (SCFAs) amount was 0.34% (octanoic acid). Medium chain fatty acids (MCFA) amount was 4.45% (palmitic acid). During the thermo-oxidation, the poly-unsaturated fatty acids (PUFA) amount decreased during the 48 h of heat treatment, reaching an amount of 6.21%. This determined the increase in short chain fatty acids (SCFA). Trans fatty acids increased with the frying time. Unsaturated fatty acids (UFA) reached the value of 90.19%; SFA was 9.79%, and octanoic acid was 0.20%. A correlation between TPC vs UFA/SFA and TPC vs C18:2/C16:0 was observed in the frying oil. The most abundant volatile compounds in frying oil (from 0 to 48 h) were the aldehydes produced by decomposition of hydroperoxides of oleic and linoleic acids.

Published

2021

6. Enzymatic synthesis of structured lipids from liquid and fully hydrogenated high oleic sunflower oil

Author

Marilene D. M. Morselli Ribeiro, Chiu Chih Ming, Thiago I. B. Lopes, Renato Grimaldi, Anita J. Marsaioli, and Lireny Ap. G. Gonçalves

Subjects

Acyl migration, Enzymatic interesterification, High oleic sunflower oil, Lipozyme TL IM, Structured lipids, Triacylglycerols, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Structured lipids (SL) were synthesized via enzymatic (EI) and chemical interesterification of high oleic sunflower oil (SO) and fully hydrogenated high oleic SO with Lipozyme TL IM (Thermomyces lanuginose) for 3 h at 70°C, 300 rpm. Reaction showed changes in the triacylglycerols (TAGs) composition, solid fat content (SFC), thermal behavior, regiospecific distribution, microstructure, and polymorphism. Results revealed that the EI caused considerable rearrangement of the TAG species with lower levels of tri-saturated and tri-unsaturated TAG and higher levels of monoun- and diunsaturated TAG. The interesterified blends showed reduced SFC between 20 and 35°C, lowering the melting point. After 3-h incubation, EI produced acyl migration to some extent. The SL showed the required characteristics for application as bakery fats and as additives for lipid crystallization in the food industry.

Published

2018

7. Effect of Different Chlorine Sources on the Formation of 3-Monochloro-1,2-Propanediol and 2-Monochloro-1,3-Propanediol Fatty Acid Esters during Frying.

Author

Bognár, Erzsébet, Hellner, Gabriella, Radnóti, Andrea, Somogyi, László, and Kemény, Zsolt

Subjects

*FATTY acid esters, *OLEIC acid, *CHLORINE, *AMMONIUM chloride, *SUNFLOWER seed oil, *CALCIUM chloride, *POTASSIUM chloride, *SALT

Abstract

Several studies indicated that chlorine salts provoke 3-monochloro-1,2-propanediol fatty acid esters (3-MCPD-FE) and 2-monochloro-1,3- propanediol fatty acid esters (2-MCPD-FE) formation in oils during frying. The amount of MCPD strongly depends on the type and the amount of chlorine salt. Food raw materials, additives themselves may contain several chlorine compounds, providing precursors for 2- and 3-MCPD-FE formation during frying. Then, the fat uptake can cause measurable concentrations in the fried food as well. This paper aims at screening chlorine compounds occurring in food industry. Influence of sodium chloride (NaCl), potassium chloride (KCl), calcium chloride (CaCl2), ferric chloride (FeCl3) and ammonium chloride (NH4Cl) on the formation of MCPD-FE was investigated, mimicking frying conditions (175-180 °C, atmospheric pressure), applying high oleic sunflower oil as frying medium. 2-MCPD-FE and 3-MCPD-FE were determined by using an indirect method based on alkaline-catalyzed transesterification and GC-MS analysis. As expected, the reference sample without using any chlorine salt resulted only slight increase in 3-MCPD-FE concentration, and no increase in 2-MCPD-FE concentration. In case of the stable salts minor formation was observed. At as high as 3% dosage of NaCl and KCl 1.6 and 2.4 mg/kg 3-MCPD-FE generated, respectively. Adding CaCl2, NH4Cl and FeCl3 resulted in very strong MCPD-FE formation by both isomers (2- and 3-MCPD-FE) in this increasing order. 0.1% FeCl3 generated 70 mg/kg 2-MCPD-FE and 238 mg/kg 3-MCPD-FE by the end of 8-hour heating. [ABSTRACT FROM AUTHOR]

Published

2020

8. Критерії оцінки якості олії високоолеїнового соняшнику

Author

М. В. Червоніс, О. І. Рибалка, and І. Г. Топораш

Subjects

high oleic sunflower oil, gas chromatography, oil quality indicators, Botany, QK1-989

Abstract

Мета. Провести дослідження зразків соняшникової олії з різним вмістом олеїнової кислоти хроматографічним методом, показати можливість застосування відносно простих, експресних та ефективних фізичних методів для конт­ролю вмісту олеїнової кислоти у процесі селекції гібридів соняшнику і в товарному виробництві під час визначення автентичності зразків високоолеїнової олії та розпізнавання її замінників. Методи. Загальноприйняті міжнародні методи ІСО, математико-статистичні. Результати. Проведено дослідження жирнокислотного складу соняшникової олії на газовому хроматографі за спрощеною процедурою, встановлено залежність ряду фізичних методів – заломлення на рефрактометрі, в’язкості та щільності – від жирнокислотного складу соняшникової олії, зокрема вмісту олеїнової кислоти. Висновки. Метод газової хроматографії виявився найінформативнішим та ефективним для контролю вмісту олеїнової кислоти на всіх етапах як селекційного процесу, так і в умовах товарного виробництва. Серед фізичних методів на особливу увагу заслуговують ті, що ґрунтуються на визначенні показників заломлення, кінематичної в’язкості та щільності, оскільки між ними та вмістом олеїнової кислоти в соняшниковій олії встановлено високу кореляційну залежність.

Published

2016

9. Enzymatic synthesis of structured lipids from liquid and fully hydrogenated high oleic sunflower oil.

Author

Ribeiro, Marilene D. M. Morselli, Ming, Chiu Chih, Lopes, Thiago I. B., Grimaldi, Renato, Marsaioli, Anita J., and Gonçalves, Lireny Ap. G.

Subjects

*LIPID synthesis, *SUNFLOWER seed oil, *OLEIC acid, *ESTERIFICATION, *TRIGLYCERIDES

Abstract

Structured lipids (SL) were synthesized via enzymatic (EI) and chemical interesterification of high oleic sunflower oil (SO) and fully hydrogenated high oleic SO with Lipozyme TL IM (Thermomyces lanuginose) for 3 h at 70°C, 300 rpm. Reaction showed changes in the triacylglycerols (TAGs) composition, solid fat content (SFC), thermal behavior, regiospecific distribution, microstructure, and polymorphism. Results revealed that the EI caused considerable rearrangement of the TAG species with lower levels of tri-saturated and tri-unsaturated TAG and higher levels of monoun- and diunsaturated TAG. The interesterified blends showed reduced SFC between 20 and 35°C, lowering the melting point. After 3-h incubation, EI produced acyl migration to some extent. The SL showed the required characteristics for application as bakery fats and as additives for lipid crystallization in the food industry. [ABSTRACT FROM AUTHOR]

Published

2018

10. Olive pomace oil versus high oleic sunflower oil and sunflower oil: A comparative study in healthy and cardiovascular risk humans

Author

Interprofesional del Aceite de Orujo de Oliva, Comunidad de Madrid, González-Rámila, Susana, Mateos, Raquel, García-Cordero, Joaquín, Seguido, Miguel A., Bravo, Laura, Sarriá, Beatriz, Interprofesional del Aceite de Orujo de Oliva, Comunidad de Madrid, González-Rámila, Susana, Mateos, Raquel, García-Cordero, Joaquín, Seguido, Miguel A., Bravo, Laura, and Sarriá, Beatriz

Abstract

Olive pomace oil (OPO) is mainly a source of monounsaturated fat together with a wide variety of bioactive compounds, such as triterpenic acids and dialcohols, squalene, tocopherols, sterols and aliphatic fatty alcohols. To date, two long-term intervention studies have evaluated OPO’s health effects in comparison with high oleic sunflower oil (HOSO, study-1) and sunflower oil (SO, study-2) in healthy and cardiovascular risk subjects. The present study integrates the health effects observed with the three oils. Two randomized, blinded, cross-over controlled clinical trials were carried out in 65 normocholesterolemic and 67 moderately hypercholesterolemic subjects. Each study lasted fourteen weeks, with two four-week intervention phases (OPO versus HOSO or SO), each preceded by a three-week run-in or washout period. Regular OPO consumption reduced total cholesterol (p = 0.017) and LDL cholesterol (p = 0.018) levels as well as waist circumference (p = 0.026), and only within the healthy group did malondialdehyde (p = 0.004) levels decrease after OPO intake versus HOSO. Contrarily, after the SO intervention, apolipoprotein (Apo) B (p < 0.001) and Apo B/Apo A ratio (p < 0.001) increased, and to a lower extent Apo B increased with OPO. There were no differences between the study groups. OPO intake may improve cardiometabolic risk, particularly through reducing cholesterol-related parameters and waist circumference in healthy and hypercholesterolemic subjects.

Published

2022

11. Polysaccharide-based emulsion gels as fat replacers in Frankfurter sausages: Physicochemical, nutritional and sensorial evaluation

Author

Cynthia Fontes-Candia, Marta Martínez-Sanz, Pilar Gómez-Cortés, María Visitación Calvo, Samuel Verdú, Raúl Grau, Amparo López-Rubio, Ministerio de Ciencia e Innovación (España), European Commission, and Agencia Estatal de Investigación (España)

Subjects

Emulsion gels, Polysaccharides, High oleic sunflower oil, Ensure healthy lives and promote well-being for all at all ages, Lower saturated fatty acids, Food Science

Abstract

Agar and κ-carrageenan emulsion gels were used to produce Frankfurters with reduced animal fat content by partially (50%) or completely (100%) replacing the pork back fat. The results showed that 50% of the pork back fat substitution did not affect the mechanical and physicochemical properties of the obtained sausages compared with the control (pure pork back fat). Slight changes in the textural and TBARS values were observed for the 100% substituted sausages, while a reduction from 25.37 to 17.07 g/g sample of total fat was attained. Thus, decreasing the caloric content from 280 to 209 kcal/g sample. The saturated fatty acid/unsaturated fatty acid ratio was also reduced from 0.58 to 0.38 with 50% substitution and 0.17 with total substitution, thus diminishing the atherogenic and thrombogenic indexes by 35% and 70%, respectively. The reformulated Frankfurters with a reduced-fat content were accepted by the consumers, evidencing that the polysaccharide-based emulsion gels can be promising ingredients for developing meat products with improved nutritional composition., The projects RTI2018-094268-B-C22, RTI2018-094268-B-C21, CEX2021-001189-S and PID2020-114821RB-I00 were funded by MCIN/AEI/10.13039/501100011033 and by “ERDF A way of making Europe”. Cynthia Fontes-Candia is recipient of a pre-doctoral grant from CONACYT (MEX/Ref. 306680).

Published

2023

12. Synthesis of structured lipids containing behenic acid from fully hydrogenated Crambe abyssinica oil by enzymatic interesterification.

Author

Ribeiro, Marilene, Ming, Chiu, Lopes, Thiago, Grimaldi, Renato, Marsaioli, Anita, and Gonçalves, Lireny

Abstract

Low-calorie structured lipids (SLs) rich in behenic and oleic acids were produced by enzymatic (EI) and chemical interesterification (CI) of high oleic sunflower oil and fully hydrogenated Crambe abyssinica oil in proportions of 60:40, 50:50, 40:60 and 30:70 (w/w), respectively. The immobilized lipase from Thermomyces lanuginosus (Lipozyme TL IM) was used for 3 h at 70 °C at a dosage of 7% (w/w) free of organic solvents. The original blend (BE) and the reaction products were evaluated for their fatty acid (FA) and triacylglycerols (TAG) compositions, solid fat contents, thermal analysis, regiospecific distribution of the FA, microstructure and polymorphism. The tendency was towards a reduction in the C, C, C, C and C TAG contents and an increase in the C, C e C TAG contents, therefore the solid fat content was reduced. There was lower acyl migration at the sn-2 position of the TAGs in EI as compared to CI in all the blends ratios. Needle-like crystals were predominant in the IE while large symmetrical spherulites were observed in the BE. Reduction in the mean crystal diameter was observed in all the blends, in addition to modifications of the crystal morphology. X-ray diffraction analysis showed a predominance of the β' form crystals in both the IE and CI. The SLs were produced for application in the food industry as bakery/confectionery fats in the proportions of 60:40/50:50 and as additive in the crystallization of lipids in the proportions of 40:60/30:70. [ABSTRACT FROM AUTHOR]

Published

2017

13. Enzymatic Interesterification of Coconut and High Oleic Sunflower Oils for Edible Film Application.

Author

Moore, Maria A. and Akoh, Casimir C.

Subjects

OLEIC acid, SUNFLOWER seed oil, EDIBLE coatings, TENSILE strength, SPORTS nutrition

Abstract

Blends [60:40, 70:30, and 80:20 ( w/ w)] of coconut oil (CO) and high oleic sunflower oil (HOSO) were interesterified using immobilized enzyme, Lipozyme TL IM (Novozymes North America Inc., Franklinton, NC, USA). The structured lipids (SLs), referred to as interesterified products (IPs) IP60:40, IP70:30, and IP80:20, were compared to CO and HOSO for application in edible films. IPs were compared based on fatty acid profile, TAG molecular species, melting profile, moisture vapor permeability, mechanical properties, film transparency, density, and thickness. Interesterification increased oleic acid content at the sn-2 position of IPs. CO had 5.50 ± 1.67 mol% oleic acid at the sn-2 position, and when interesterified with HOSO (92.81 ± 1.10 mol% oleic acid) the amount of oleic acid significantly increased ( p < 0.05) at the sn-2 position for IP60:40, IP70:30, and IP80:20 (33.86 ± 1.55, 27.34 ± 1.20, 20.61 ± 1.50 mol%), respectively. There was no significant difference between SLs, HOSO, and CO for water vapor permeability and density when applied to emulsion edible films. The HOSO film was significantly different (1.43 ± 0.27 AUmm) from the rest of the SLs and CO for film transparency. IP60:40 (2.20 ± 0.22 AUmm) decreased the opacity and was significantly different from HOSO and IP80:20 (2.88 ± 0.08 AUmm). Tensile strength of IP60:40 was 0.39 ± 0.17 MPa which was significantly different from IP70:30, IP80:20, and HOSO. The elongation at break was significantly different for HOSO and IP60:40. IP60:40 could be used to further investigate the use of SL in edible film for sports nutrition products. [ABSTRACT FROM AUTHOR]

Published

2017

14. Polysaccharide-based emulsion gels as fat replacers in Frankfurter sausages: Physicochemical, nutritional and sensorial evaluation.

Author

Fontes-Candia, Cynthia, Martínez-Sanz, Marta, Gómez-Cortés, Pilar, Calvo, María Visitación, Verdú, Samuel, Grau, Raúl, and López-Rubio, Amparo

Subjects

*FRANKFURTER sausages, *FAT substitutes, *SATURATED fatty acids, *EMULSIONS, *UNSATURATED fatty acids, *AGAR

Abstract

Agar and κ-carrageenan emulsion gels were used to produce Frankfurters with reduced animal fat content by partially (50%) or completely (100%) replacing the pork back fat. The results showed that 50% of the pork back fat substitution did not affect the mechanical and physicochemical properties of the obtained sausages compared with the control (pure pork back fat). Slight changes in the textural and TBARS values were observed for the 100% substituted sausages, while a reduction from 25.37 to 17.07 g/g sample of total fat was attained. Thus, decreasing the caloric content from 280 to 209 kcal/g sample. The saturated fatty acid/unsaturated fatty acid ratio was also reduced from 0.58 to 0.38 with 50% substitution and 0.17 with total substitution, thus diminishing the atherogenic and thrombogenic indexes by 35% and 70%, respectively. The reformulated Frankfurters with a reduced-fat content were accepted by the consumers, evidencing that the polysaccharide-based emulsion gels can be promising ingredients for developing meat products with improved nutritional composition. • Agar and κ-carrageenan emulsion gels are potential pork back fat replacers in Frankfurters. • Improved lipid profile was seen in the reformulated Frankfurters. • Textural and sensorial properties were affected by the percentage of substitution. • Healthier Frankfurters with a reduced-fat content were accepted by the consumers. [ABSTRACT FROM AUTHOR]

Published

2023

15. Effect of pH on o/w emulsions formulated with potato protein and chitosan

Author

N. Calero, J. Muñoz, and A. Guerrero

Subjects

chitosan, emulsion, high oleic sunflower oil, potato protein, rheology, Nutrition. Foods and food supply, TX341-641

Abstract

Emulsions formulated with healthy ingredients are becoming increasingly popular in the developed world, due to the consumer concern about diseases related to fat and to fatty diets. This study focuses on the O/W emulsions formulated with high-oleic sunflower oil, vegetable protein (potato protein) and chitosan; and deals with the role of pH in the preparation of 40 wt% high-oleic sunflower oil in water emulsions. First of all, potato protein suspensions were prepared in a pH range from 2.0 to 11.5 and enhanced protein solubility was observed with increasing pH. An increase in pH emulsion resulted in more viscoelasticity as demonstrated by the greater values for the storage and lost moduli derived from small amplitude oscillatory shear measurements as well as by the progressive change in the shape of the mechanical spectrum. Flow curves showed shear thinning properties and increasing viscosity values with pH. Z-potential measurements revealed that attractive interactions between potato protein and chitosan progressively increased with pH. The results obtained are consistent with the occurrence of a protein-polysaccharide complex around the interface of oil droplets, which yielded enhanced physical stability.

Published

2013

16. Vegetable oils as hydraulic fluids for agricultural applications

Author

G. Mendoza, A. Igartua, B. Fernandez-Diaz, F. Urquiola, S. Vivanco, and R. Arguizoniz

Subjects

biodegradable lubricants, high oleic sunflower oil, hydraulic fluids, friction, tribology, wear, Nutrition. Foods and food supply, TX341-641

Abstract

The formulation of environmentally friendly lubricants following the criterion of the European EcoLabel is expensive owing to the lack of technological development in this area. The present work deals with the development of lubricant formulations from vegetable oils, in particular using high oleic sunflower oil as base fluid. These new biolubricants have to perform as good as the reference lubricants used in the real application (an agricultural tractor) but with the additional condition and value of their biodegradability without toxicity. Formulation development has been performed by Verkol Lubricantes, involving the selection of the base oil and the design of the additive package. The investigation performed by Tekniker in the laboratory has covered different aspects, characterizing the most important physicochemical properties of the lubricants, including their behavior at low temperatures and their resistance to oxidation. The tribological properties of the new biolubricants have also been studied, analyzing their ability to protect the interacting surface from wear, as well as the level of friction generated during sliding. Moreover, the compatibility of the new formulated oil with all the seals present in the real application has been taken into consideration. The selected lubricant is now being tested in agricultural machinery from AGRIA.

Published

2011

17. ДОСЛІДЖЕННЯ ВПЛИВУ ОЛІЇ СОНЯШНИКОВОЇ ВИСОКООЛЕЇНОВОГО ТИПУ НА СТРУКТУРНО- МЕХАНІЧНІ ВЛАСТИВОСТІ ЗАВАРНОГО ТІСТА ТА ВИПЕЧЕНИХ З НЬОГО НАПІВФАБРИКАТІВ

Author

ПИВОВАРОВ, П. П., ФЕДАК, Н. В., and ДІХТЯРЬ, А. М.

Abstract

The presence of innovative component in concept of the company is one of the conditions for its constant competitiveness. Innovative development of restaurant industry and food industry is the basis of strategic planning, which forms a set of measures related to the new products release, the implementation and use of new technologies, development of sales markets, organization of production. So today restaurant industry and food industry are focused on the innovative way of development, based on the purposeful process of searching for new technologies and raw material sources, characterized by affordability, manufacturability, functionality. The most important condition for the creation of the new technology is the obtaining of products that are not inferior to analogues in quality, and even exceeds them in some indicators. An important place in the structure of human nutrition is occupied by culinary products, among which choux pastry products are in high demand. In the overall structure of food industry choux pastry products occupy a significant part, and constitute the dynamically developing segment. Therefore, our scientific interests were focused on the development of fat-containing culinary and confectionery products and choux pastry products. It was analytically confirmed that the realization of the process of choux pastry products manufacturing is mainly determined by technical and technological properties of the fat component. The fatty acid composition comparative analysis of traditional choux pastry fat ingredients (butter and margarine) and high oleic sunflower oil was conducted. The studies results of structurally-mechanical properties of choux pastry with high oleic sunflower oil and physicochemical indicators of baked semifinished products are provided in article. The plastic viscosity and other indicators of choux pastry deformation, depending on the oil and water content in a model system were determined. It was established that the optimal concentration of oil in the recipe is 32%, the specific volume of baked semifinished product with this concentration is 7.3 cm3 /g; the stability of shape is 1 s.u.; oven loss is 39%; shrinkage is 4.4%. Study of choux pastry fat recipe component properties in terms of technological process modeling will allow to manage and ensure the obtaining of competitive products with a balanced composition of nutritional and biological value. [ABSTRACT FROM AUTHOR]

Published

2016

18. Scalable synthesis of oleoyl ethanolamide by chemical amidation in a mixed solvent.

Author

Wang, Xiaosan, Han, Zhengyang, Chen, Yang, Jin, Qingzhe, and Wang, Xingguo

Subjects

AMIDE synthesis, AMIDATION, SOLVENTS, LIPIDS, BIOACTIVE compounds, SUNFLOWER seed oil

Abstract

Oleoyl ethanolamide is a lipid mediator that exhibits biological activity in animal and cell models. In this study, an effective process is described to synthesize oleoyl ethanolamide by chemical amidation with native oil used as an acyl donor in the presence of sodium methoxide. Reaction conditions were optimized. When the amidation reaction was conducted in a mixed solvent, by reacting 2 mmol high oleic sunflower oil and 20 mmol ethanolamine in the presence of 1.5 % sodium methoxide with agitation, >90 % fatty acid ethanolamide was formed after 3 h of reaction time. The fatty acid ethanolamide product was purified by a two-step crystallization process to prepare oleoyl ethanolamide. Highly pure oleoyl ethanolamide was obtained in a 70.3 % molar yield. The novelty of the work is the use of native oil as acyl donor and the mixed solvent used as the reaction media. The use of native oil avoids the formation of ion pairs with ethanolamine that can occur in other synthesis routes. [ABSTRACT FROM AUTHOR]

Published

2016

19. Intérêt nutritionnel des huiles de tournesols : tournesol linoléique et tournesol à haute teneur en oléique

Author

Delplanque Bernadette

Subjects

nutrition, linoleic sunflower oil, high oleic sunflower oil, cardiovascular risk factors, sunflower oil, n-6/n-3 balance, Oils, fats, and waxes, TP670-699

Abstract

Depuis les années 60 le tournesol traditionnel représentait le chef de file des « huiles poly-insaturées ». Depuis l’apparition des premières variétés riches en acide oléique (18:1), les sélections naturelles ou traditionnelles de variétés nouvelles de tournesol oléique ont trouvé leur place et leur justification sur le plan nutritionnel, par la qualité diversifiée de leurs acides gras, mais aussi par la préservation des qualités de l’insaponifiable (riche en vitamine E et en phytostérols). Une complémentarité entre les tournesols linoléique et oléique pourrait être tout à fait intéressante par l’utilisation d’huiles combinées, en vue d’un équilibre diététique mono/poly-insaturé dont l’effet serait d’assurer l’expression optimale des paramètres de protection vis-à-vis de l’athérothrombose à l’origine des maladies cardiovasculaires. Le développement du « tournesol-mid-oléique » (mid-range-oleic) pourrait également apporter une source d’oléique et de linoléique naturellement plus équilibrée. Cependant, il restera à satisfaire les besoins en alpha-linolénique (importance de la balance n-6/n-3) qui pourraient être apportés par le colza.

Published

2000

20. Virgin olive oil and cholesterol distribution and transbilayer movement in human erythrocyte membrane.

Author

F. J. G. Muriana and V. Ruiz Gutiérrez

Subjects

arterial blood pressure, cholesterol distribution, cholesterol transbilayer, high oleic sunflower oil, humans, sodium-lithium countertransport, virgin olive oil., Nutrition. Foods and food supply, TX341-641

Abstract

The influence of virgin olive oil intake (with regard to the ingestion of high-oleic sunflower oil) on cholesterol distribution and transbilayer movement in the erythrocyte membrane of healthy subjects and hypertensive patients (with or without concomitant hypercholesterolaemia) was studied. The activity of erythrocyte sodium-lithium countertransport and blood pressure were also determined. The study was conducted over two 4-week periods, with a washout (4-week) period between both monounsaturated diets. Olive oil (but not high-oleic sunflower oil) was able to reduce the erythrocyte sodium-lithium countertransport activity, to normalize the erythrocyte membrane cholesterol distribution and transbilayer movement, and to significantly diminish the systolic and diastolic Wood pressures in hypertensive patients. Our data indicate that olive oil enriched-diet may modulate and/or partially prevent the alteration of those pathogenic parameters related to human hypertension and Cardiovascular Pathology. These processes cannot be exclusively ascribed to the content of oleic acid in virgin olive oil.

Published

1998

21. Virgin olive oil and cardiovascular diseases. Plasma lipid profile and lipid composition of human erythrocyte membrane.

Author

V. Ruiz Gutiérrez, F. J. G. Muriana, and J. Villar

Subjects

essential hypertension, high oleic sunflower oil, humans, membrane lipids, plasma lipids, virgin olive oil., Nutrition. Foods and food supply, TX341-641

Abstract

We studied the effect of virgin olive oil on plasma lipids and erythrocyte membrane lipids of healthy subjects and hypertensive patients (with or without hypercholesterolaemia). The effect of high-oleic sunflower oil was also tested. The study was conducted over two 4-week periods, with a washout (4-week) period between both monounsaturated diets. Olive oil and high-oleic sunflower oil signiflcantly increased the plasma HDL cholesterol concentration, but only decreased the plasma LDL cholesterol concentration in healthy subjects. There was a reduction in the ratio of cholesterol to phospholipids in the erythrocyte membrane of healthy subjects, while an increase in the erythrocyte of hypertensive patients after both MUFA periods. The content of membrane cholesteryl esters was fully decreased. Olive oil (but not high-oleic sunflower oil) increased the content of long-chain PUFAs (arachidonic acid, and docosapentaenoic and docosahexaenoic acids of n-3 family) in the erythrocyte membrane of hypertensive patients. The effects were more evident in hypercholesterolaemic patients. Our study indicates that olive oil and high-oleic sunflower oil improve the plasma atherogenic profile In humans, although olive oil (and not high-oleic sunflower oil) had favourable effect on membrane homeostasis processes.

Published

1998

22. Sensory properties during storage of crisps and French fries prepared with sunflower oil and high oleic sunflower oil

Author

L. J. van Gemert

Subjects

crisps, french fries, high oleic sunflower oil, sensory assessment, storage, sunflower oil, Nutrition. Foods and food supply, TX341-641

Abstract

A selected and trained descriptive sensory panel has assessed samples of crisps and French fries prepared on an industrial scale with either sunflower oil (SO) or high oleic sunflower oil (HOBO). Furthermore, crisps have been fried in these oils with or without dimethyl polysiloxane (DMPS). Reference samples were prepared using palm olein (PO) or hydrogenated rapeseed/palm oil mixture (RP). Crisps were stored at ambient temperature for six months and French fries at -20°C for 12 months. At regular intervals the samples were assessed. Crisps prepared in SO have a lower sensory quality than those prepared in PO. Frying in HOSO resulted in crips comparable with those fried in PO. The differences found in this study concerning the mouthfeel or texture were thought not to be caused by the application of different oils. The addition of DMPS did not have any positive effect on the storage quality of crisps fried in SO or HOSO. Frying of French fries in HOSO and especially in SO, in comparison with RP, resulted in a product with a typical sweet fruits odour and flavour. During storage these sensory attributes decreased in intensity. As this finding might be an artefact of this study, further research is needed.

Published

1996

23. Storage stability of crips measured by headspace and peroxide value analyses

Author

R. M. Lahtinen, I. Wester, and J. R. K. Niemelä

Subjects

crisps, headspace analysis, high oleic sunflower oil, industrial frying, peroxide value, storage, sunflower oil, Nutrition. Foods and food supply, TX341-641

Abstract

Normal sunflower oil and high oleic acid sunflower oil were tested in industrial frying of crisps against the reference oil palm olein. A protective agent, dimethyl polysiloxane (DMPS), was also tested in crisp frying. Peroxide values and volatile contents of the crisps stored in normal storage conditions (room temperature) were measured during storage. From the peroxide values it could be seen that crisps fried in normal sunflower oil were the most unstable during storage. Crisps fried in high oleic sunflower oil proved to be almost as stable towards oxidation as crisps fried in reference oil palm olein. Volatile contents, measured by a static headspace - gas chromatograph - mass spectrometry system, confirmed the conclusions of peroxide analysis. Neither of the methods could find any difference between the samples which had been fried with and without DMPS.

Published

1996

24. Sensory assessment of stored french fries and crisps fried in sunflower and high oleic sunflower oils

Author

R. Raoux, O. Morin, and F. Mordret

Subjects

crips, french fries, high oleic sunflower oil, sensory assessment, storage, sunflower oil, Nutrition. Foods and food supply, TX341-641

Abstract

After the elaboration of specific lists of descriptors for crisps and frozen pre-cooked french fries, the sensory profiles allowed to describe these products fried in sunflower, high oleic sunflower and palm/palm based blend oils. The sensory data were analysed by principal component analysis and factorial correspondence analysis. In the chosen conditions of the trials, the organoleptic quality of four french fries batches is different but stable within the storage period. For the crisps a more or less significant evolution is observed depending on the frying oil type; this modification is mostly described by the fruity and rancid attributes.

Published

1996

25. Influence of dimethylpolysiloxane addition to frying oils: performance of sunflower oil in discontinuous and continuous laboratory frying

Author

N. Jorge, G. Márquez-Ruiz, M. Martín-Polvillo, M. V. Ruiz-Mendez, and M. C. Dobarganes

Subjects

continuous frying, dimethylpolysiloxane, discontinuous frying, high oleic sunflower oil, polar compounds, sunflower oil., Nutrition. Foods and food supply, TX341-641

Abstract

Conventional and high oleic sunflower oils were used to study the influence of dimethylpolysiloxane (DMPS) addition (2 mg/Kg) on discontinuous and simulated continuous laboratory frying. Analytical methods applied for a direct evaluation of oil degradation included determination of total polar compounds, polymers, oxidized triglyceride monomers and diglycerides. Results indicated that DMPS has a strong positive action in discontinuous frying as differences between samples with and without DMPS were very high and much more pronounced than those attributed to oil unsaturation. However, DMPS was not effective in simulated continuous frying. Comparison from results obtained for discontinuous and simulated continuous frying demonstrated that the surface was well protected from the penetration of oxygen when potatoes are being fried and, in consequence, protection by DMPS in discontinuous frying took place when the oil surface was unprotected.

Published

1996

26. Industrial frying trials with high oleic sunflower oil

Author

J. R.K. Niemelä, I. Wester, and R. M. Lahtinen

Subjects

crips, deep fat frying, french fries, frying fat, frying oil, high oleic sunflower oil, industrial frying., Nutrition. Foods and food supply, TX341-641

Abstract

High oleic sunflower oil has been developed for some special purposes where a good oxidation stability is needed and a healthy fatty acid profile is preferred. The oil is especially suitable for deep fat frying. These industrial frying trials with high oleic sunflower oil were part of the AIR-project CT 920687 "Utilisation of Sunflower Oils in Industrial Frying Operations". High oleic sunflower oil (HOSO) was tested against the traditional oils and fats in two industrial deep fat frying applications, namely crisps and prefried frozen french fries. The frying trials took place in Raisio Groups factories in Pyhanta and Vihanti, Finland in 1993 and 1994. According to the trials, high oleic sunflower oil is very suitable for deep fat frying. Problems occurred when a hard fat was substituted for a liquid oil in the preparation of prefrozen French Fries. These problems could be partly overcome by adjustments in the processing line.

Published

1996

27. Influence of dimethylpolysiloxane addition to edible oils: dependence on the main variables of the frying process

Author

N. Jorge, G. Márquez-Ruiz, M. Martín-Polvillo, M. V. Ruiz-Mendez, and M. C. Dobarganes

Subjects

dimethylpolysiloxane, frying, high oleic sunflower oil, polar compounds, sunflower oil, thermoxidation., Nutrition. Foods and food supply, TX341-641

Abstract

Experiments were carried out in the absence of food to define the influence of significant variables of the frying process, i.e. oil unsaturation, temperature, surface-to-oil volume ratio, type of heating and dimethylpolysiloxane (DMPS) addition. Special emphasis was placed on clarifying the action of the addition of low concentrations of DMPS to frying oils. From statistical evaluation based on the content of polar compounds, the strong influence of the variables surface-to-oil volume ratio, DMPS addition and oil unsaturation was deduced. However, changes due to 10ºC difference in temperature were not significant. Analysis of two-way interactions demonstrated that interactions between type of heating/DMPS addition, type of heating/oil unsaturation, surface-to-oil volume ratio/DMPS addition and surface-to-oiI volume ratio/oil unsaturation were significant, thus indicating the complexity of the frying process. Finally, it was found that increase in specific groups of compounds formed through oxidative polymerization as well as loss of natural antioxidants depended mainly on the total content of polar compounds and, at a second level, on the oil unsaturation.

Published

1996

28. Fats from Chemically Interesterified High-Oleic Sunflower Oil and Fully Hydrogenated Palm Oil.

Author

Masuchi, Monise Helen, Gandra, Kelly Moreira, Marangoni, André Luis, Sá Perenha, Cristiane, Chiu, Ming Chih, Grimaldi, Renato, and Gonçalves, Lireny Aparecida Guaraldo

Subjects

SUNFLOWER seed oil, PALM oil, ESTERIFICATION, HYDROGENATION, CRYSTALLIZATION, MELTING points

Abstract

Chemical interesterification of different lipid materials has considerable potential for the production of a wide variety of special fats with improved functional and nutritional properties. The present study aimed to evaluate the chemical interesterification of blends of high-oleic sunflower oil (HOSO) and fully hydrogenated palm oil (FHPO) in the ratios (% w/w) of 80:20, 70:30, 60:40 and 50:50. The blends were characterized in triacylglycerol composition, melting point, solid fat content and crystallization behavior, and some applications in food products were suggested. The interesterification altered the solid fat content, melting point and crystallization isotherm of the samples, after the levels of trisaturated triacylglycerols decreased and disaturated-monounsaturated and monosaturated-diunsaturated triacylglycerol contents increased, due to the randomization of fatty acids. The modification in the triacylglycerol composition promoted greater miscibility between the HOSO and FHPO fractions, creating new application possibilities for the food industry. [ABSTRACT FROM AUTHOR]

Published

2014

29. 〔報文〕非加熱および加熱調理時における高オレイン酸含有ひまわり油の感覚評価

Author

Mayu, YOKOTA, Yuki, FUJITA, Honami, MISHIBA, Kunihiko, SOMA, and Kyoko, OHASHI

Subjects

官能評価, 炒め物, 高オレイン酸含有ひまわり油, sensory evaluation, digestive, oral, and skin physiology, food and beverages, 揚げ物, high oleic sunflower oil, equipment and supplies, mayonnaise, stir-fried foods, マヨネーズ, deep-fried foods

Abstract

Previous research has shown that high oleic sunflower oil (HOSO) that comes from sunflower seeds has high oxidative stability when heated. An article on the sensory characteristics of foods fried in HOSO suggested that they have a light, mild oil flavor. However, the sensory characteristics of HOSO used in foods that have not been fried have not been examined. We therefore investigated the sensory characteristics of HOSO when used in French dressing, mayonnaise, stir-fried foods, and deep-fried foods. For the testing, we used high oleic sunflower oil (89% oleic acid) and rapeseed oil from canola seeds for comparison. The results were as follows. French dressing and mayonnaise were not very greasy, each had a weak aftertaste, and sour and salty flavors were strong. Stir-fried eggplants were evaluated to have a mild oil odor and a light flavor. Stir-fried carrots were highly palatable. Deep-fried foods were highly evaluated as palatable, with a mild oil odor, weak aftertaste, mild greasiness, and a light flavor.

Published

2017

30. A Process Model for Approximating the Production Costs of the Fermentative Synthesis of Sophorolipids.

Author

Ashby, Richard D., McAloon, Andrew J., Solaiman, Daniel K. Y., Yee, Winnie C., and Reed, Marshall

Subjects

*FERMENTATION, *INDUSTRIAL costs, *CHEMICAL synthesis, *OLEIC acid, *FEEDSTOCK, *GLUCOSE

Abstract

Sophorolipids are microbial glycolipids that possess surfactant-type properties. Sophorolipids have been tested successfully in a number of potential industrial and niche applications but are generally acknowledged to require higher production costs when compared to petroleum-based surfactants. The objective of this study was to develop a process economic model for the fermentative synthesis of sophorolipids using contemporary process simulation software and current reagent, equipment, and supply costs, following current production practices. Glucose (Glc) and either high oleic sunflower oil (HOSO) or oleic acid (OA) were used as feedstocks and the annual production capacity of the plant was set at 90.7 million kg/year with continuous operation of 24 h a day for 330 days per year. Major equipment costs were calculated to be US$17.1 million but other considerations such as capital, labor, material and utilities costs were also included. The single greatest contributor to the overall production/operating cost was raw materials, which accounted for 89 and 87 % of the total estimated production expenditures for the HOSO and OA-based fermentations, respectively. Based on this model and yields of 100 g/L, the cost of large-scale sophorolipid synthesis via fermentation from Glc:HOSO was calculated to be US$2.95/kg ($1.34/lb) and from Glc:OA to be US$2.54/kg ($1.15/lb). The model is flexible and can be adjusted to reflect changes in capital, production and feedstock costs as well as changes in the type of feedstocks used. [ABSTRACT FROM AUTHOR]

Published

2013

31. Comparison of the Frying Performance of High Oleic Oils Subjected to Discontinuous and Prolonged Thermal Treatment.

Author

Romano, Raffaele, Manzo, Nadia, Le Grottaglie, Laura, Giordano, Anella, Romano, Annalisa, and Masi, Paolo

Subjects

DEEP frying, PERFORMANCE evaluation, OLEIC acid, HIGH temperatures, THERMAL stability, COMPARATIVE studies

Abstract

Frying is a popular practice because of its unique sensory characteristics and low cost. The high temperature reached with this cooking method alters molecules present in the oil. The deterioration of the oil depends primarily on its chemical composition. The aim of this study was to evaluate the thermal stability of high oleic sunflower oil (HOSO), sunflower oil (SO) and mixed oil (MIX) during deep frying of French fries. Octanoic acid and unsaturated fatty acid (UFA)/saturated fatty acid (SFA) ratio showed a good correlation with total polar compounds (TPC) for all frying samples analyzed. HOSO and MIX were characterized by reduced levels of thermal degradation, while SO resulted in the highest values of oxidation products (highest TPC values). SO was also the oil more retained by the food matrix, whereas MIX was the least absorbed. HOSO and MIX, having a high oleic acid content (77.58 and 59.92 %, respectively) and a low linoleic acid content (13.42 and 25.70 %, respectively), showed the best characteristics for the frying process. [ABSTRACT FROM AUTHOR]

Published

2013

32. Efecto del pH en emulsiones o/w formuladas con proteína de patata y quitosano.

Author

Calero, N., Muñoz, J., and Guerrero, A.

Subjects

*EMULSIONS, *HYDROGEN-ion concentration, *VISCOELASTICITY, *PROTEIN solubility, *CHITOSAN, *SUNFLOWER seed oil, *RHEOLOGY

Abstract

Emulsions formulated with healthy ingredients are becoming increasingly popular in the developed world, due to the consumer concern about diseases related to fat and to fatty diets. This study focuses on the O/W emulsions formulated with high-oleic sunflower oil, vegetable protein (potato protein) and chitosan; and deals with the role of pH in the preparation of 40 wt% high-oleic sunflower oil in water emulsions. First of all, potato protein suspensions were prepared in a pH range from 2.0 to 11.5 and enhanced protein solubility was observed with increasing pH. An increase in pH emulsion resulted in more viscoelasticity as demonstrated by the greater values for the storage and lost moduli derived from small amplitude oscillatory shear measurements as well as by the progressive change in the shape of the mechanical spectrum. Flow curves showed shear thinning properties and increasing viscosity values with pH. Z-potential measurements revealed that attractive interactions between potato protein and chitosan progressively increased with pH. The results obtained are consistent with the occurrence of a protein-polysaccharide complex around the interface of oil droplets, which yielded enhanced physical stability. [ABSTRACT FROM AUTHOR]

Published

2013

33. Effect of dietary fat source on fatty acid profile and lipid oxidation of eggs.

Author

King, E. J., Hugo, A., de Witt, F. H., van der Merwe, H. J., and Fair, M. D.

Subjects

*LINSEED oil, *SUNFLOWER seed oil, *DIETARY fats, *FISH oils, *FATTY acids, *FATTY acid methyl esters, *LIPIDS

Abstract

This study investigated the effects of supplementary dietary lipid sources on the fatty acid profile and lipid oxidation of eggs. Five isoenergetic (12.6 MJ AME/kg DM) and isonitrogenous (170 g CP/kg DM) diets were formulated, using a control diet (50: 50 blend of fish- and linseed oil), fish oil, sunflower oil, high oleic acid (HO) sunflower oil and tallow at a 30 g/kg inclusion level. Two hundred individually caged HyLine Silver-Brown hens (20 weeks of age) were randomly allocated to the five dietary treatments (n = 40 hens/treatment). Birds received the experimental diets from 20 weeks of age. At 30 weeks of age, 12 eggs per treatment were randomly selected for analyses of egg yolk fatty acid methyl esters (FAME), thiobarbituric acid reactive substances (TBARS) and peroxide values (PV). Dietary lipid sources affected FAME, TBARS and PV of egg yolk significantly. The fish oil treatment resulted in the highest TBARS (0.27 mg malonaldehyde/kg yolk) and PV (3.96 milli-equivalent peroxide/kg fat) whereas the HO sunflower oil resulted in the lowest TBARS (0.13 mg malonaldehyde/kg yolk) and PV (2.77 milli-equivalent peroxide/kg fat). Fish oil also resulted in the lowest n-6 to n-3 ratio (1.16 to 1), while sunflower oil resulted in the highest ratio (24.6 to 1). Results indicate that the fatty acid profile of eggs could be altered by means of dietary intervention. However, an improvement of omega-3 type fatty acids of eggs will result in a higher susceptibility to lipid oxidation and possibly a shorter shelf-life of stored eggs. [ABSTRACT FROM AUTHOR]

Published

2012

34. Valorization of Beef Tallow by Lipase-Catalyzed Interesterification with High Oleic Sunflower Oil.

Author

Segura, Nadia, Silva, Roberta, M. Soares, Fabiana, Gioielli, Luiz, and Jachmanián, Iván

Subjects

SUNFLOWER seed oil, LIPASES, ESTERIFICATION, OLEIC acid, BEEF, CRYSTALLIZATION, TRIGLYCERIDES, FATTY acids

Abstract

Although beef tallow (BT) has been considered a hard low- trans fat convenient to be used in several bakery applications, it has some undesirable characteristics like fatty acid composition, crystallization behavior, graininess formation and poor plastic range. This work studied the modification of BT by blending at different percentages with high oleic sunflower oil (HOSFO) followed by the enzyme-catalyzed interesterification of the blends. The reduction in the solid fat content achieved by the simple blending was enhanced by the interesterification process, as a result of the increase in the concentration of the diunsaturated monosaturated type triacylglycerols. Interesterification strongly impacted too on the crystallization behavior of the blends, since products showed more homogeneous and regular crystals than the starting mixture. Results show that lipase catalyzed interesterification of BT with HOSFO offers a useful tool for the design of fats with adjustable physicochemical properties, improved with respect to that of the starting fats. [ABSTRACT FROM AUTHOR]

Published

2011

35. A two-stage enzymatic process for synthesis of extremely pure high oleic glycerol monooleate

Author

Zhu, Qisi, Li, Tie, Wang, Yonghua, Yang, Bo, and Ma, Yongjun

Subjects

*ENZYMATIC analysis, *BIOSYNTHESIS, *OLEIC acid, *GLYCERIN, *ENZYMES, *INDUSTRIALIZATION, *TRANSGENIC organisms, *SUNFLOWER seed oil

Abstract

Abstract: This paper presents a research interest concentrating on aims to establish a feasible industrial process for enzymatic production of highly pure glycerol monooleate (GMO). The synthesis of high oleic glycerol monooleate by enzymatic glycerolysis of high oleic sunflower oil, using Novozyme 435 as the biocatalyst, in a binary solvent mixture of tert-butanol and tert-pentanol (80/20, v/v), at a lab scale has been studied. A yield of 75.31% monoacylglycerol has been achieved at the first stage. A yield of 93.3% GMO was finally reached after further purification at the second stage. To evaluate the possibility of the process for industrialization, production of GMO was performed at a pilot-plant scale under the correspondingly adjusted conditions. A yield of 68.17% and 93.4% of GMO was obtained, respectively, at the end of the three stages. [ABSTRACT FROM AUTHOR]

Published

2011

36. Vegetable oils as hydraulic fluids for agricultural applications.

Author

Mendoza, G., Igartua, A., Fernandez-Diaz, B., Urquiola, F., Vivanco, S., and Arguizoniz, R.

Subjects

*BIODEGRADABLE products, *LUBRICATION & lubricants, *CHEMICAL engineering, *HYDRAULIC fluids, *VEGETABLE oils, *INDUSTRIALIZATION & the environment

Abstract

The formulation of environmentally friendly lubricants following the criterion of the European EcoLabel is expensive owing to the lack of technological development in this area. The present work deals with the development of lubricant formulations from vegetable oils, in particular using high oleic sunflower oil as base fluid. These new biolubricants have to perform as good as the reference lubricants used in the real application (an agricultural tractor) but with the additional condition and value of their biodegradability without toxicity. Formulation development has been performed by Verkol Lubricantes, involving the selection of the base oil and the design of the additive package. The investigation performed by Tekniker in the laboratory has covered different aspects, characterizing the most important physicochemical properties of the lubricants, including their behavior at low temperatures and their resistance to oxidation. The tribological properties of the new biolubricants have also been studied, analyzing their ability to protect the interacting surface from wear, as well as the level of friction generated during sliding. Moreover, the compatibility of the new formulated oil with all the seals present in the real application has been taken into consideration. The selected lubricant is now being tested in agricultural machinery from AGRIA. [ABSTRACT FROM AUTHOR]

Published

2011

37. Analysis of volatile molecules in Iberian dry-cured loins as affected by genetic, feeding systems and ingredients.

Author

Ventanas, Sonia, Ventanas, Jesús, Estévez, Mario, and Ruiz, Jorge

Subjects

*VOLATILE organic compounds, *OLEIC acid, *VITAMIN E, *YEAST, *HYDROCARBONS

Abstract

Volatile molecules of unseasoned dry-cured loins (DCL) produced from pigs with different genetic [IB = pure Iberian, IBxD = (♀) Iberian × (♂) Duroc (50%) and DxIB = (♀) Duroc × (♂) Iberian (50%)] and feeding systems (MON = outdoors in “montanera” system, HOVE = indoors with mixed diet enriched in oleic acid and supplemented with α-tocopherol and CON = indoors with conventional mixed diet) were investigated using SPME coupled to gas chromatography/mass spectrometry (GC/MS). According to the overall volatiles profile of DCL, lipid oxidation and Maillard-type reactions were the main routes for volatiles generation although the contribution of mould and yeast from loin’s surface should be considered. Aliphatic hydrocarbons were the major chemical family in most DCL batches while alcohols were the chemical family with the largest variety of volatile compounds. Genetic had a slight effect, with crossbreed type (IBxD vs. DxIB) being the most influential factor. Certain compounds derived from grass consumption (decane, p-xilene and three terpenes compounds) had higher chromatographic areas in IB-MON than in IB-HOVE DCL, suggesting their role as indicators of the outdoor “montanera” feeding system. Changes in the volatiles profile of DCL caused by the lack of seasoning were also described. [ABSTRACT FROM AUTHOR]

Published

2010

38. Variations in Fatty Acids, Phospholipids and Sterols During the Seed Development of a High Oleic Sunflower Variety.

Author

Zlatanov, M. D., Angelova-Romova, M. J., Antova, G. A., Dimitrova, R. D., Momchilova, S. M., and Nikolova-Damyanova, Boryana M.

Subjects

SUNFLOWER seed oil, FATTY acids, PHOSPHOLIPIDS, STEROLS, VITAMIN E, SEED development

Abstract

The changes in the content and composition of total fatty acids, phospholipids and sterol esters, and their fatty acids, and of free sterols and tocopherols in developing seeds of a selection of high oleic acid sunflower varieties grown in Bulgaria were examined over a period of 15th to 90th day after flowering by means of various chromatographic methods. Under the climatic and geographical conditions typical for the South-East Balkans phospholipid, sterol-, sterol ester- and tocopherol- species are formed practically completely in the first 15 days after flowering. Until the 90th day, only quantitative changes were detected to give a product with 65% oil content, 1% phospholipids, 0.3% total sterols and 0.09% tocopherols. Oleic acid is the main component in all acyl derivatives, reaching 85% of the total fatty acids while palmitic and stearic acid content is about 4% each. The product is a good quality HOSO with beneficial content of FA and good prospects as a salad and cooking oil. [ABSTRACT FROM AUTHOR]

Published

2009

39. Research of the effects of technological factors on the quality indices of high oleic sunflower oil

Author

Galyna Stepankova, Yevgen Pyvovarov, Aliona Dichtyar, Natalia Fedak, and Yevgeniia Yarantseva

Subjects

chemistry.chemical_classification, food.ingredient, Sunflower oil, Glyceride, high oleic sunflower oil, lcsh:Business, Raw material, Shelf life, Peroxide, Oleic acid, chemistry.chemical_compound, food, custard dough, chemistry, lcsh:Technology (General), fatty acid composition, lcsh:T1-995, thermal effect, Thermal stability, Food science, lcsh:HF5001-6182, Polyunsaturated fatty acid

Abstract

The object of research is high oleic sunflower oil (HOSO) and refined deodorized sunflower oil (RDSO) as a control. The distinguishing characteristic of HOSO consists in the changed fatty acid composition , has a high content of triglycerides of oleic acid more than 89 %. HOSO has the following characteristics: (ρ=915...920 g/cm 3 , η=0.0180±0.0009 Pa, t (solidification)= 0...-6 oC, refractive index 1,466...1,468; Tb N = 0. 0100±0.0003 mg MA/1000 g, PN =0.83±0.02 mmol ½ O/kg , SN =184...194 mg KOH, AN =0.112±0.003 mg KOH/g; IN =105±5 % I 2 ; =3.00±0.09). One of the most problematic places for using oils is that they are faster than solid fats, refreshing products has less shelf life. In the course of the study, the influence of technological factors on the HOSO properties and the scientific basis for the HOSO use as a prescription component of food systems i s determined. It is proved that during the storage HOSO is more resistant to processes in comparison with RDSO , since glycerides of polyunsaturated fatty acids oxidize faster than monounsaturated, confirming the experimental data of physicochemical parameters, fatty acid composition and dynamics of the content of tocopherols. HOSO stability for oxidation processes under conditions of prolonged thermal action in comparison with RDSO (control) by functional numbers (acid, peroxide, iodine, thiobarbituric) is studied. It is found that the oxidation rate in HOSO is lower than in theRDSO (control) by 2 times at the beginning of the heat treatment and by 1.23 times with the maximum duration of heat treatment. The coefficient of extinction grows to the limit of maximum permissible values at 6 hours in RDSO and 18 hours in HOSO, which confirms the HOSO thermal stability that is 3 times greater. Essential changes in the fatty acid composition and in the complex of tocopherols of oils under heat treatment conditions, the nature of which depends on the type of oil and the duration of heat treatment, are also shown, which also indicates a greater stability of HOSO for oxidation processes in comparison with RDSO (control). On the basis of the research, recommendations are developed on the HOSO use in the technology of custard products and as a medium for frying. Rational conditions of the brewing process are t=95...100 oC, τ=(3...5)×60 s, hydromodule «HOSO-water» – 1:2.5. Recommended parameters for the HOSO use as a medium for frying, in particular deep-fried: t=160...180 oC, duration of continuous use τ=(0...18)×60 2 s, ratio « HOSO – semifinished product» is 4: 1, HOSO storage time is 24 months. Thus, HOSO use will ensure the use of domestic raw materials; the maximum realization of the functional and technological properties of HOSO with obtaining high-quality products; reduction of energy costs and labor intensity of the process; introduction of resource-saving technologies using the newest principles of food production.

Published

2017

40. Suitability of ethyl cellulose as multifunctional additive for blends of vegetable oil-based lubricants

Author

Críspulo Gallegos, M.A. Delgado, L.A. Quinchia, and Hugh Spikes

Subjects

Technology, Strategy and Management, 02 engineering and technology, PALM OIL, 0915 Interdisciplinary Engineering, Industrial and Manufacturing Engineering, Castor wax, Viscosity, chemistry.chemical_compound, Engineering, 0203 mechanical engineering, Organic chemistry, Lubricant, Solubility, GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY, TEMPERATURE, General Environmental Science, Castor oil, Wax, Ethyl cellulose, 021001 nanoscience & nanotechnology, VISCOSITY MODIFICATION, 020303 mechanical engineering & transports, visual_art, visual_art.visual_art_medium, Science & Technology - Other Topics, RAPESEED OIL, 0210 nano-technology, Life Sciences & Biomedicine, High oleic sunflower oil, BEHAVIOR, medicine.drug, Materials science, Environmental Sciences & Ecology, medicine, CASTOR-OIL, Additive, Biolubricant, FORMULATIONS, ENVIRONMENT, Science & Technology, SOYBEAN OIL, Renewable Energy, Sustainability and the Environment, Engineering, Environmental, 0910 Manufacturing Engineering, 0907 Environmental Engineering, Vegetable oil, chemistry, JOJOBA-OIL, Environmental Sciences

Abstract

In a previous study, ethyl cellulose was successfully blended with castor oil and the results demonstrated its suitability to be used as additive to expand the range of operating conditions under which fluid film lubrication is sustained, mainly at high temperature. However, apparent solubility problems were detected when mixed with other vegetable oils with lower polarity than castor oil. In this work, a suitable combination of ethyl cellulose (EC) with both high oleic sunflower (HOSO) and castor (CO) oils was found able to reach stable and non gel-like blends with viscosities at 40 °C ranging between 62 and 493 cSt, and viscosity indexes fitting into group III (VI ≥ 120) of API classification of base fluids. The ternary HOSO/CO/EC blend showed an important reduction in friction coefficient at low entrainment speed, and generated a stable EHD-film at 100 °C of around 20 nm, which suggests better boundary properties than HOSO/EC or CO/EC blends. On the other hand, ethyl cellulose hindered wax crystallization process of these vegetable oil-based lubricants at 5 °C, yielding comparable results to those obtained with standard polymethacrylate backbone additives. Therefore, the suitable combination of both castor and HOSO with EC as multifunctional additive allow a set of eco-friendly base fluids to be formulated with a wide kinematic viscosity range, better viscosity-temperature dependence than many mineral or synthetic oils lubricants and excellent boundary lubrication properties, making them suitable for many lubricant applications.

Published

2017

41. Soft baked cookie : desenvolvimento do produto e análise sensorial

Author

Santos, Mónica Curado dos, Lopes, Cláudia Mónica Teixeira, and Hogg, Maria Conceição

Subjects

Soft baked cookie, Product development, Desenvolvimento do produto, Análise sensorial, Textura macia, mole e húmida, Ciências Agrárias::Biotecnologia Agrária e Alimentar [Domínio/Área Científica], Sensory analysis, High oleic sunflower oil, Óleo de girassol com alto teor oleico, Soft and chewy texture

Abstract

Submitted by Ana Costa (apcosta@porto.ucp.pt) on 2021-01-14T18:23:16Z No. of bitstreams: 1 Relatório de Estágio_Mónica Santos.pdf: 1494483 bytes, checksum: c71b2057e9562a12282a5473b41e4a2f (MD5) Approved for entry into archive by Maria Helena Ribeiro (helena.ribeiro@lisboa.ucp.pt) on 2021-01-21T16:08:20Z (GMT) No. of bitstreams: 1 Relatório de Estágio_Mónica Santos.pdf: 1494483 bytes, checksum: c71b2057e9562a12282a5473b41e4a2f (MD5) Made available in DSpace on 2021-01-21T16:08:20Z (GMT). No. of bitstreams: 1 Relatório de Estágio_Mónica Santos.pdf: 1494483 bytes, checksum: c71b2057e9562a12282a5473b41e4a2f (MD5) Previous issue date: 2019-06-11

Published

2019

42. Критерії оцінки якості олії високоолеїнового соняшнику

Subjects

gas chromatography, lcsh:Botany, oil quality indicators, high oleic sunflower oil, lcsh:QK1-989

Abstract

Мета. Провести дослідження зразків соняшникової олії з різним вмістом олеїнової кислоти хроматографічним методом, показати можливість застосування відносно простих, експресних та ефективних фізичних методів для конт­ролю вмісту олеїнової кислоти у процесі селекції гібридів соняшнику і в товарному виробництві під час визначення автентичності зразків високоолеїнової олії та розпізнавання її замінників. Методи. Загальноприйняті міжнародні методи ІСО, математико-статистичні. Результати. Проведено дослідження жирнокислотного складу соняшникової олії на газовому хроматографі за спрощеною процедурою, встановлено залежність ряду фізичних методів – заломлення на рефрактометрі, в’язкості та щільності – від жирнокислотного складу соняшникової олії, зокрема вмісту олеїнової кислоти. Висновки. Метод газової хроматографії виявився найінформативнішим та ефективним для контролю вмісту олеїнової кислоти на всіх етапах як селекційного процесу, так і в умовах товарного виробництва. Серед фізичних методів на особливу увагу заслуговують ті, що ґрунтуються на визначенні показників заломлення, кінематичної в’язкості та щільності, оскільки між ними та вмістом олеїнової кислоти в соняшниковій олії встановлено високу кореляційну залежність.

Published

2016

43. Effect of fatty acid composition of oils on flavor and stability of fried foods.

Author

Warner, K., Orr, P., and Glynn, M.

Abstract

Effects of fatty acid composition of frying oils on intensities of fried-food flavor and off-flavors in potato chips and french-fried potatoes were determined. Commercially processed cottonseed oil (CSO) and high-oleic sunflower oil (HOSUN) were blended to produce oils with 12 to 55% linoleic acid and 16 to 78% oleic acid. Analytical sensory panels evaluated french-fried potatoes and pilot plant-processed potato chips. Initially, both foods prepared in CSO (16% oleic/55% linoleic acid) had the highest intensities of fried-food flavor; however, this positive flavor decreased with decreasing levels of linoleic acid. 2,4-Decadienal in potato chips also decreased with decreasing linoleic acid in the oils. Frying oil stability, measured by total polar compounds (TPC), and oxidative stability of potato chips, measured by volatile compounds, showed that HOSUN (78% oleic acid) produced the lowest levels of TPC and the lowest levels of hexanal and pentanal, indicating greater frying oil stability and oxidative stability of the food. However, fresh potato chips fried in HOSUN had the lowest intensities of fried-food flavor and lowest overall flavor quality. Fried-food flavor intensity was the best indicator of overall flavor quality in fresh potato chips. Volatile compounds, TPC, and oxidative stability index directly varied with increasing oleic acid, and were therefore not directly indicative of flavor quality. No oil analysis predicted flavor stability of aged potato chips. Compositions of 16 to 42% oleic acid and 37 to 55% linoleic acid produced fresh fried-food with moderate fried food flavor intensity, good overall flavor quality, and low to moderate TPC levels (chips only). However, in aged food or food fried in deteriorated oil, compositions of 42 to 63% oleic and 23 to 37% linoleic provided the best flavor stability. [ABSTRACT FROM AUTHOR]

Published

1997

44. Analysis of vegetable oil volatiles by multiple headspace extraction.

Author

Snyder, J. and Mounts, T.

Abstract

Quantitative determination of the volatiles produced from oxidized vegetable oils is an important indicator of oil quality. Five vegetable oils, low-erucic acid rapeseed, corn, soybean, sunflower and high oleic sunflower, were stored at 60°C for four and eight days to yield oils with several levels of oxidation. Peroxide values of the fresh oils ranged from 0.6 to 1.8 while those of the oxidized oils were from 1.6 to 42. Volatile analysis by the multiple headspace extraction (MHE) technique, which includes a pressure and time controlled injection onto the gas chromatography (GC) column (a chemically bonded capillary column), was compared with that obtained by static headspace gas chromatography (SHS-GC). Several volatile compounds indicative of the oxidation of polyunsaturated fatty acids from the vegetable oils were identified and measured by MHE; pure compounds of twelve major volatiles also were measured by MHE, and peak area was determined. Multiple extractions of the oil headspace provided a more reproducible measure of volatile compounds than was obtained by SHS-GC. Concentration of all volatiles increased with increased oxidation as measured by peroxide value of the oil. [ABSTRACT FROM AUTHOR]

Published

1990

45. Исследование влияния технологических факторов на показатели качества масла подсолнечного высокоолеинового типа

Author

Dichtyar, Aliona, Fedak, Natalia, Pyvovarov, Yevgen, Stepankova, Galyna, and Yarantseva, Yevgeniia

Subjects

UDC 641.5:665.347.8, олія соняшникова високоолеїнового типу, жирнокислотний склад, термічний вплив, заварне тісто, high oleic sunflower oil, fatty acid composition, thermal effect, custard dough, масло подсолнечное высокоолеинового типа, жирнокислотный состав, термическое воздействие, заварное тесто

Abstract

The object of research is high oleic sunflower oil (HOSO) and refined deodorized sunflower oil (RDSO) as a control. The distinguishing characteristic of HOSO consists in the changed fatty acid composition, has a high content of triglycerides of oleic acid more than 89 %. HOSO has the following characteristics: (ρ=915...920 g/cm3, η=0.0180±0.0009 Pa, t (solidification)=0...-6 ºC, refractive index 1,466...1,468; TbN =0.0100±0.0003 mg MA/1000 g, PN=0.83±0.02 mmol ½ O/kg, SN=184...194 mg KOH, AN=0.112±0.003 mg KOH/g; IN=105±5 % I2; =3.00±0.09). One of the most problematic places for using oils is that they are faster than solid fats, refreshing products has less shelf life. In the course of the study, the influence of technological factors on the HOSO properties and the scientific basis for the HOSO use as a prescription component of food systems is determined. It is proved that during the storage HOSO is more resistant to processes in comparison with RDSO, since glycerides of polyunsaturated fatty acids oxidize faster than monounsaturated, confirming the experimental data of physicochemical parameters, fatty acid composition and dynamics of the content of tocopherols. HOSO stability for oxidation processes under conditions of prolonged thermal action in comparison with RDSO (control) by functional numbers (acid, peroxide, iodine, thiobarbituric) is studied. It is found that the oxidation rate in HOSO is lower than in theRDSO (control) by 2 times at the beginning of the heat treatment and by 1.23 times with the maximum duration of heat treatment. The coefficient of extinction grows to the limit of maximum permissible values at 6 hours in RDSO and 18 hours in HOSO, which confirms the HOSO thermal stability that is 3 times greater. Essential changes in the fatty acid composition and in the complex of tocopherols of oils under heat treatment conditions, the nature of which depends on the type of oil and the duration of heat treatment, are also shown, which also indicates a greater stability of HOSO for oxidation processes in comparison with RDSO (control). On the basis of the research, recommendations are developed on the HOSO use in the technology of custard products and as a medium for frying. Rational conditions of the brewing process are t=95...100 ºC, τ=(3...5)×60 s, hydromodule «HOSO-water» – 1:2.5. Recommended parameters for the HOSO use as a medium for frying, in particular deep-fried: t=160...180 ºC, duration of continuous use τ=(0...18)×602 s, ratio «HOSO – semifinished product» is 4: 1, HOSO storage time is 24 months.Thus, HOSO use will ensure the use of domestic raw materials; the maximum realization of the functional and technological properties of HOSO with obtaining high-quality products; reduction of energy costs and labor intensity of the process; introduction of resource-saving technologies using the newest principles of food production., Досліджено показники якості олії соняшникової високоолеїнового типу (ОСВТ) та визначено їх зміни під впливом технологічних чинників (діапазону температур, тривалості термічного впливу, pH середовища). Визначено раціональні параметри технологічної обробки ОСВТ та розроблено рекомендації з її використання в технології продукції із заварного тіста., Исследованы показатели качества масла подсолнечного высокоолеинового типа (МПВТ) и установлено их изменения под влиянием технологических факторов (температуры, продолжительности термического воздействия, pH среды). Определены рациональные параметры технологической обработки МПВТ и разработаны рекомендации по использованию его в технологии продукции из заварного теста.

Published

2017

46. Milk fat as alternative for obtaining plastic lipid bases

Author

Rodolfo Lázaro Soares Viriato, Gigante, Mirna Lúcia, 1961, Chiu, Ming Chih, Gama, Marco Antônio Sundfeld, Universidade Estadual de Campinas. Faculdade de Engenharia de Alimentos, Programa de Pós-Graduação em Tecnologia de Alimentos, and UNIVERSIDADE ESTADUAL DE CAMPINAS

Subjects

Misturas binarias, Gordura do leite, Milk fat, Óleo de girassol alto oleico, Cristalização, Gorduras plasticas, Crystallization, High oleic sunflower oil, Binary blends, Plastic fats

Abstract

Orientador: Mirna Lúcia Gigante Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos Resumo: Com a implementação de legislações mundiais referentes à eliminação de gordura trans em alimentos, existe a necessidade de soluções tecnológicas para a obtenção de gorduras plásticas. Atualmente, o método utilizado pela indústria para obtenção de bases lipídicas com diferentes propriedades físicas é a interesterificação química de misturas de hardfats e óleos vegetais. Uma alternativa a este processo consiste em utilizar a gordura do leite, que é considerada naturalmente uma gordura plástica, sendo, supostamente capaz de orientar a cristalização de bases lipídicas. A sua mistura com óleos vegetais pode aumentar a plasticidade e favorecer o perfil nutricional da gordura do leite. Neste contexto, o óleo de girassol alto oleico, pode ser uma alternativa promissora para o desenvolvimento de bases lipídicas estruturadas à base de gordura do leite. O objetivo deste trabalho foi produzir e caracterizar bases lipídicas obtidas a partir de misturas de gordura anidra do leite (GAL) e óleo de girassol alto oleico (OGAO). As bases lipídicas foram preparadas em seis diferentes proporções [GAL:OGAO, 100:00, 90:10; 80:20; 70:30; 60:40; 50:50 (% m/m)] e caracterizadas quanto a composição em ácidos graxos e triacilgliceróis, conteúdo de gordura sólida, compatibilidade, ponto de fusão, cinética de cristalização, comportamento térmico de cristalização e fusão, microestrutura, firmeza e hábito polimórfico. As misturas foram preparadas em triplicata e a separação em função da composição de ácidos graxos foi avaliada por análise quimiométrica. O efeito da adição do OGAO no teor de ácidos graxos saturados e insaturados, ponto de fusão, no conteúdo de gordura sólida e na cinética de cristalização foi avaliado por Análise de Variância (ANOVA) e teste de Tukey para comparação das médias ao nível de significância de 5 %. Correlações ao nível de 5 % de significância foram utilizadas para avaliar o efeito do conteúdo de gordura sólida e os parâmetros microestruturais sobre a firmeza das bases lipídicas. A modificação da GAL pela adição de OGAO resultou no aumento da concentração de triacilgliceróis de alta massa molecular e na redução do ponto de fusão, no conteúdo de gordura sólida e na firmeza. Todas as formulações apresentaram compatibilidade entre os constituintes. Além disso, a adição de OGAO nas misturas afetou o comportamento térmico de cristalização e fusão, a cinética de cristalização e o mecanismo de nucleação e crescimento dos cristais. No entanto, em todas as misturas a gordura do leite governou o processo de cristalização, apresentando cristais de diâmetro inferior a 30 µm, cristalizados na forma polimórfica ?, propriedades ffsicas desejjveis de sistemas lippdicos semissslidos. O conjunto de resultados indicou que as misturas GAL:OGAO 70:30, 60:40 e 50:50 apresentaram perfil de gorduras pllsticas de uso geral para aplicaaço na inddstria de alimentos Abstract: With the implementation of worldwide legislation regarding the elimination of trans fat in food, there is a need for technological solutions to obtain plastic fats. Currently, the method used by the industry to obtain lipid bases with different physical properties is the chemical interesterification of hardfats and vegetable oils. An alternative to this process is to use milk fat, which is considered to be a plastic fat, and is supposed to govern the crystallization of lipid bases. Its blend with vegetable oils can increase plasticity and favor the nutritional profile of milk fat. In this context, high oleic sunflower oil may be a promising alternative for the development of milk fat-based structured lipid bases. The objective of this study was to produce and characterize lipid bases obtained from anhydrous milk fat (AMF) and high oleic sunflower oil (HOSO) blends. The lipid bases were prepared in six different proportions [AMF:HOSO, 100:00, 90:10; 80:20; 70:30; 60:40; 50:50 (% w/w)] and characterized for fatty acid and triacylglycerols composition, solid fat content, compatibility study, melting point, crystallization kinetics, crystallization and melting thermal behavior, microstructure, firmness and polymorphic habit. The blends were prepared in triplicate and the separation as a function of the fatty acid composition was evaluated by chemometric analysis. The effect of HOSO addition on the content of saturated and unsaturated fatty acids, melting point, solid fat content and crystallization kinetics was evaluated by Analysis of Variance (ANOVA) and Tukey test for comparison of means at significance level of 5 %. Correlations at the 5 % level of significance were used to evaluate the effect of the solid fat content and the microstructural parameters on the firmness of the lipid bases. Modification of the AMF by addition of HOSO resulted in no increase in the concentration of triacylglycerols of high molecular mass and reduction of melting point, solid fat content and firmness. All formulations showed compatibility between the constituents. The addition of HOSO in the blends affected the thermal behavior of crystallization and melting, the crystallization kinetics and the nucleation and growth mechanism of the crystals. However, in all blends the milk fat governed the crystallization process, presenting crystals of less than 30 µm of diameter, crystallized in polymorphic form ß', desirable physical properties of semi-solid lipid systems. The set of results indicated that the AMF:HOSO 70:30, 60:40 and 50:50 blends presented a general purpose plastic fat profile for application in the food industry Mestrado Tecnologia de Alimentos Mestre em Tecnologia de Alimentos CNPQ 131070/2015-0

Published

2017

47. Oxidative stability of high oleic sunflower oil during deep-frying process of purple potato Purple Majesty .

Author

Romano R, Filosa G, Pizzolongo F, Durazzo A, Lucarini M, Severino P, Souto EB, and Santini A

Abstract

The behaviour of high oleic sunflower oil in deep frying process of purple potato Purple Majesty has been evaluated simulating a fast food cooking process. This oil was used for 8h/day for 6 days, filling up from the 2nd day. A discontinuous and prolonged procedure was tested. Free Fatty Acidity (FFA), Peroxide Value (PV), Total Polar Compounds (TPC), Fatty Acid (FA) composition, Volatile Organic Compounds (VOC) have been determined at different times in thermo-oxidized (T-OX) oil, and in frying oil. The FFA in T-OX oil samples showed values in the range 0.09%-0.24%, whereas in the frying oil values varied in a range between 0.09% and 0.16%. TPCs values varied from 1.76% to 38.24% in T-OX oils, whereas in frying oil used for frying purple potatoes (FOPP) showed values in the range from 1.76 to 29.13%. The peroxides values did not follow a regular pattern, both during thermo-oxidation and during frying. Among the Long Chain Fatty Acids (LCFAs), oleic acid was the most represented (84.13%). Short chain fatty acids (SCFAs) amount was 0.34% (octanoic acid). Medium chain fatty acids (MCFA) amount was 4.45% (palmitic acid). During the thermo-oxidation, the poly-unsaturated fatty acids (PUFA) amount decreased during the 48 h of heat treatment, reaching an amount of 6.21%. This determined the increase in short chain fatty acids (SCFA). Trans fatty acids increased with the frying time. Unsaturated fatty acids (UFA) reached the value of 90.19%; SFA was 9.79%, and octanoic acid was 0.20%. A correlation between TPC vs UFA/SFA and TPC vs C18:2/C16:0 was observed in the frying oil. The most abundant volatile compounds in frying oil (from 0 to 48 h) were the aldehydes produced by decomposition of hydroperoxides of oleic and linoleic acids., Competing Interests: The authors declare the following conflict of interests: Antonello Santini; [is an Associate Editor for the Food Science and Nutrition section of Heliyon.], (© 2021 Published by Elsevier Ltd.)

Published

2021

48. Effect of pH on o/w emulsions formulated with potato protein and chitosan

Author

Calero, N., Muñoz, J., and Guerrero, A.

Subjects

emulsion, Chitosan, Emulsión, Aceite de girasol alto oleico, Nutrition. Foods and food supply, Emulsion, Proteína de patata, high oleic sunflower oil, potato protein, Quitosano, Reología, Potato protein, rheology, TX341-641, chitosan, Rheology, High oleic sunflower oil

Abstract

Emulsions formulated with healthy ingredients are becoming increasingly popular in the developed world, due to the consumer concern about diseases related to fat and to fatty diets. This study focuses on the O/W emulsions formulated with high-oleic sunflower oil, vegetable protein (potato protein) and chitosan; and deals with the role of pH in the preparation of 40 wt% high-oleic sunflower oil in water emulsions. First of all, potato protein suspensions were prepared in a pH range from 2.0 to 11.5 and enhanced protein solubility was observed with increasing pH. An increase in pH emulsion resulted in more viscoelasticity as demonstrated by the greater values for the storage and lost moduli derived from small amplitude oscillatory shear measurements as well as by the progressive change in the shape of the mechanical spectrum. Flow curves showed shear thinning properties and increasing viscosity values with pH. Z-potential measurements revealed that attractive interactions between potato protein and chitosan progressively increased with pH. The results obtained are consistent with the occurrence of a protein-polysaccharide complex around the interface of oil droplets, which yielded enhanced physical stability. Las emulsiones con ingredientes saludables están adquiriendo más popularidad en el mundo desarrollado, ya que el consumidor es consciente de la relación existente entre algunas enfermedades y las dietas ricas en grasas. En este trabajo se estudian emulsiones O/W formuladas con aceite de girasol alto oleico, una proteína vegetal (proteína de patata) y quitosano. Concretamente, se estudia la influencia del pH en la preparación de emulsiones que contenían 40% de aceite de girasol alto oleico. Se prepararon suspensiones de la proteína en un intervalo de valores de pH comprendido entre 2 y 11,5, observándose un aumento de solubilidad de la proteína al aumentar el pH. El aumento del pH de la emulsión provocó un aumento de la viscoelasticidad, que quedaba reflejado en un incremento de los valores de los módulos de almacenamiento y pérdida, respectivamente, así como, en un cambio progresivo en la forma del espectro mecánico. Por otro lado, las curvas de flujo mostraron propiedades pseudoplásticas y un aumento de los valores de la viscosidad con el pH. Las medidas de potencial Z revelaron la existencia de interacciones atractivas entre la proteína de patata y el quitosano que aumentaban progresivamente con el pH. Los resultados obtenidos pueden explicar la existencia de un complejo proteína de patata-quitosano que se coloca alrededor de las gotas de aceite y que justifica el aumento de estabilidad física.

Published

2013

49. Efecto del pH en emulsiones o/w formuladas con proteína de patata y quitosano

Author

Nuria Calero, José Muñoz, and Antonio Guerrero

Subjects

Chitosan, Emulsión, Aceite de girasol alto oleico, Chemistry, Emulsion, Organic Chemistry, lcsh:TX341-641, Proteína de patata, Quitosano, Reología, Potato protein, Rheology, High oleic sunflower oil, lcsh:Nutrition. Foods and food supply, Food Science

Abstract

Emulsions formulated with healthy ingredients are becoming increasingly popular in the developed world, due to the consumer concern about diseases related to fat and to fatty diets. This study focuses on the O/W emulsions formulated with high-oleic sunflower oil, vegetable protein (potato protein) and chitosan; and deals with the role of pH in the preparation of 40 wt% high-oleic sunflower oil in water emulsions. First of all, potato protein suspensions were prepared in a pH range from 2.0 to 11.5 and enhanced protein solubility was observed with increasing pH. An increase in pH emulsion resulted in more viscoelasticity as demonstrated by the greater values for the storage and lost moduli derived from small amplitude oscillatory shear measurements as well as by the progressive change in the shape of the mechanical spectrum. Flow curves showed shear thinning properties and increasing viscosity values with pH. Z-potential measurements revealed that attractive interactions between potato protein and chitosan progressively increased with pH. The results obtained are consistent with the occurrence of a protein-polysaccharide complex around the interface of oil droplets, which yielded enhanced physical stability.Las emulsiones con ingredientes saludables están adquiriendo más popularidad en el mundo desarrollado, ya que el consumidor es consciente de la relación existente entre algunas enfermedades y las dietas ricas en grasas. En este trabajo se estudian emulsiones O/W formuladas con aceite de girasol alto oleico, una proteína vegetal (proteína de patata) y quitosano. Concretamente, se estudia la influencia del pH en la preparación de emulsiones que contenían 40% de aceite de girasol alto oleico. Se prepararon suspensiones de la proteína en un intervalo de valores de pH comprendido entre 2 y 11,5, observándose un aumento de solubilidad de la proteína al aumentar el pH. El aumento del pH de la emulsión provocó un aumento de la viscoelasticidad, que quedaba reflejado en un incremento de los valores de los módulos de almacenamiento y pérdida, respectivamente, así como, en un cambio progresivo en la forma del espectro mecánico. Por otro lado, las curvas de flujo mostraron propiedades pseudoplásticas y un aumento de los valores de la viscosidad con el pH. Las medidas de potencial Z revelaron la existencia de interacciones atractivas entre la proteína de patata y el quitosano que aumentaban progresivamente con el pH. Los resultados obtenidos pueden explicar la existencia de un complejo proteína de patata-quitosano que se coloca alrededor de las gotas de aceite y que justifica el aumento de estabilidad física.

Published

2013

50. Критерії оцінки якості олії високоолеїнового соняшнику

Subjects

UDC 633.854.78, 631.523, gas chromatography, высокоолеиновый подсолнечник, УДК 633.854.78, oil quality indicators, показатели, показники якості, високоолеїновий соняшник, high oleic sunflower oil, хроматографія, хро­матография

Abstract

Purpose. To perform the gas chromatography test of sunflower oil samples varied in the oleic acid content. To demonstrate the possibility of the oil samples discrimination by the use of relatively simple express-procedures for oleic acid content determination to be applied in sunflower breeding area as well as in routine original or counterfeit oil quality evalua­tion. Methods. International ISO standards and statistical evaluation. Results. The simplified gas chromatography procedure has been applied for sunflower oil fatty acid composition evaluation. Dependence of a number of physical methods such as oil light refraction, cinematic oil viscosity and oil density tests on oil fatty acid composition especially oleic acid content was determined. Conclusions. The GC test was the most informative and effective in terms of correct oleic acid content determination at all stages of breeding process and in commercial production as well. Physical procedures based on oil light refraction, cinematic oil viscosity and oil density tests are worthy of attention as the tight correlation between these indicators and oleic acid content in sunflower oil was defined., Цель. Провести исследование образцов подсолнечного масла с различным содержанием олеиновой кислоты хроматографическим методом, показать возможность при­менения относительно простых, экспрессных и эффективных физических методов для контроля содержания олеиновой кислоты в процессе селекции гибридов подсолнечника и в товарном производстве при определении подлинности образцов высокоолеинового масла и распознавании его заменителей. Методы. Общепринятые международные методы ИСО, математико-статистические. Результаты. Проведены исследования жирнокислотного состава подсолнечного масла на газовом хроматографе по упрощенной процедуре, установлена зависимость ряда физических методов – преломления на рефрактометре, вязкости и плотности – от жирнокислотного состава подсолнечного масла, в частности содержания олеиновой кислоты. Выводы. Метод газовой хроматографии оказался наиболее информативным и эффективным для контроля содержания олеиновой кислоты. Среди физических методов особого внимания заслуживают те, которые основаны на определении показателей преломления, кинематической вязкости и плотности, поскольку между ними и содержанием олеиновой кислоты в подсолнечном масле установлена высокая корреляционная зависимость., Мета. Провести дослідження зразків соняшникової олії з різним вмістом олеїнової кислоти хроматографічним методом, показати можливість застосування відносно простих, експресних та ефективних фізичних методів для конт­ролю вмісту олеїнової кислоти у процесі селекції гібридів соняшнику і в товарному виробництві під час визначення автентичності зразків високоолеїнової олії та розпізнавання її замінників. Методи. Загальноприйняті міжнародні методи ІСО, математико-статистичні. Результати. Проведено дослідження жирнокислотного складу соняшникової олії на газовому хроматографі за спрощеною процедурою, встановлено залежність ряду фізичних методів – заломлення на рефрактометрі, в’язкості та щільності – від жирнокислотного складу соняшникової олії, зокрема вмісту олеїнової кислоти. Висновки. Метод газової хроматографії виявився найінформативнішим та ефективним для контролю вмісту олеїнової кислоти на всіх етапах як селекційного процесу, так і в умовах товарного виробництва. Серед фізичних методів на особливу увагу заслуговують ті, що ґрунтуються на визначенні показників заломлення, кінематичної в’язкості та щільності, оскільки між ними та вмістом олеїнової кислоти в соняшниковій олії встановлено високу кореляційну залежність.

Published

2016