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1.
Food Chem ; 397: 133724, 2022 Dec 15.
Artículo en Inglés | MEDLINE | ID: mdl-35908461

RESUMEN

The effect of bovine back fat replacement by oleogels containing pork skin and olive oil on the oxidative stability, physicochemical, technological, nutritional, and sensory parameters of burgers was evaluated. Four different hamburger (H) were manufactured: with 90 % of lean beef and 10 % of bovine back fat (control, HC), or with 10 % of pork skin/water/virgin olive oil (HVOO), stripped olive oil added of an olive leaf extract (HESOO) or stripped olive oil (HSOO) oleogels, at 20:60:20 ratio. Physical-chemical stability was assessed after storage for 7 days at 4 °C and for 90 days at -20 °C, under non-vacuum and vacuum packaging. A reduction in the fat content by 80 % and in the energy content by 35 %, an increase in the protein content by 15 % and a better fatty acid profile were achieved in the oleogel containing burgers. After processing at 180 °C (grill), hardness, chewiness, sensory parameters and overall acceptability were high and comparable to control. All burgers were oxidative stable during 7 days at 4 °C. After storage for 90 days at -20 °C, only HSOO samples stored under non-vacuum packaging were oxidized. The antioxidant content in samples HVOO and HESOO efficiently prevented the oxidation of these samples.


Asunto(s)
Productos de la Carne , Olea , Animales , Bovinos , Productos de la Carne/análisis , Aceite de Oliva , Compuestos Orgánicos , Extractos Vegetales
2.
Molecules ; 26(19)2021 Oct 07.
Artículo en Inglés | MEDLINE | ID: mdl-34641602

RESUMEN

Surfactants have been used for decades in the food industry for the preparation of lipid-based emulsified food stuffs. They play two main roles in the emulsification processes: first they decrease the interfacial tension between the oil and water, facilitating droplet deformation and rupture; second, they reduce droplet coalescence by forming steric barriers. However, addition of surfactants to binary oil-water mixtures also brings up the formation of three-dimensional interfacial layers, surrounding each emulsion droplet, that significantly alter chemical reactivity. This is the case, for instance, in the inhibition reaction between antioxidants and the lipid radicals formed in the course of the spontaneous oxidation reaction of unsaturated lipids, which are commonly employed in the preparation of food-grade emulsions. The rate of the inhibition reaction depends on the effective concentrations of antioxidants, which are mostly controlled by the amount of surfactant employed in the preparation of the emulsion. In this work, we analyze the effects of the surfactant Tween 20 on the oxidative stability and on the effective concentrations of two model antioxidants derived from cinnamic acid, determining their interfacial concentrations in the intact emulsions to avoid disrupting the existing equilibria and biasing results. For this purpose, a recently developed methodology was employed, and experimental results were interpreted on the grounds of a pseudophase kinetic model.


Asunto(s)
Cinamatos/química , Aceite de Maíz/química , Ácidos Cumáricos/química , Emulsionantes/química , Emulsiones/química , Polisorbatos/química , Tensoactivos/química , Antioxidantes/química , Fenómenos Químicos , Interacciones Hidrofóbicas e Hidrofílicas , Oxidación-Reducción , Tensión Superficial , Agua
3.
J Sci Food Agric ; 97(2): 564-571, 2017 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-27097916

RESUMEN

BACKGROUND: The relationships between the hydrophilic-lipophilic balance (HLB) of antioxidants (AOs) and their distributions and efficiencies in emulsions are not fully understood. Recent reports indicate that, for series of homologous antioxidants of different hydrophobicity, the variation of their efficiency with the HLB of the AO increases with the alkyl chain length up to a maximum (C3 -C8 ester) followed by a decrease (cut-off effect). RESULTS: We determined the distributions of a series of caffeic acid derivatives in intact soybean emulsions by employing a specifically designed chemical probe located in the interfacial region of the emulsion. We also determined the AO efficiencies in the very same emulsions. We demonstrate that the variation of the percentage of AO in the interfacial region of soybean oil-in-water emulsions with the AO HLB parallels that of their antioxidant efficiency. CONCLUSION: The results provide physical evidence that the variations in the efficiency of homologous series of antioxidants in emulsions are the result of differences in their distribution. The results confirm that, with other things being equal, there is a direct relationship between the percentage of AO in the interfacial region of the emulsions and their efficiency, providing a natural explanation, based on molecular properties, of the cut-off effect. © 2016 Society of Chemical Industry.


Asunto(s)
Antioxidantes/química , Ácidos Cafeicos/química , Emulsiones Grasas Intravenosas/química , Modelos Químicos , Antioxidantes/análisis , Ácidos Cafeicos/análisis , Compuestos de Diazonio/análisis , Compuestos de Diazonio/química , Emulsiones , Interacciones Hidrofóbicas e Hidrofílicas , Indicadores y Reactivos/análisis , Indicadores y Reactivos/química , Cinética , Estructura Molecular , Peso Molecular , Aceite de Soja/química , Tensoactivos/química
4.
Food Chem ; 175: 233-42, 2015 May 15.
Artículo en Inglés | MEDLINE | ID: mdl-25577075

RESUMEN

Recently published results for a series of homologous antioxidants, AOs, of increasing alkyl chain length show a maximum in AO efficiency followed by a significant decrease for the more hydrophobic AOs, typically called the "cut-off" effect. Here we demonstrate that in olive oil emulsions both antioxidant efficiencies and partition constants for distributions of AOs between the oil and interfacial regions, PO(I), show a maximum at the C8 ester. A reaction between caffeic acid, CA, and its specially synthesised C1-C16 alkyl esters, and a chemical probe is used to estimate partition constants for AO distributions and interfacial rate constants, kI, in intact emulsions based on the pseudophase kinetic model. The model provides a natural interpretation for both the maximum and the "cut-off" effect. More than 70% of the CA esters are in the interfacial region even at low surfactant volume fraction, ΦI=0.005.


Asunto(s)
Antioxidantes/química , Ácidos Cafeicos/química , Ésteres/química , Aceites de Plantas/química , Emulsiones/química , Interacciones Hidrofóbicas e Hidrofílicas , Aceite de Oliva , Tensoactivos/química
5.
J Sci Food Agric ; 93(7): 1727-32, 2013 May.
Artículo en Inglés | MEDLINE | ID: mdl-23197371

RESUMEN

BACKGROUND: The importance of olive polyphenols as bioactive compounds has grown in recent years as a result of intensive research on their anticancer, antiatherosclerotic and antihypertensive activities. However, there is currently no official method for determining the content of polyphenols in olive oils because of the technical difficulties in their determination. Here a simple method for the analysis of extra virgin olive oil o-diphenols by visible spectrometry is proposed and compared with the traditional method of solid phase extraction followed by colorimetric determination using sodium molybdate or Folin-Ciocalteu reagent or by high-performance liquid chromatography (HPLC) analysis using UV detection. This new approach to determining total o-diphenolic compounds exploits the oxidation of o-diphenols to quinones in a basic medium. RESULTS: Preliminary results showed a better correlation between the total o-diphenol determination by HPLC and by the proposed method (R(2) = 0.9229) than between the total o-diphenol determination by HPLC and by the molybdate colorimetric method (R(2) = 0.8689). A good correlation was also observed between the total phenolic content determined by HPLC and by the proposed method (R(2) = 0.8196), but this correlation was a little lower than the one obtained between the HPLC method and the Folin-Ciocalteu method (R(2) = 0.8752). CONCLUSION: The proposed method involves very little sample manipulation, requires inexpensive reagents and can be performed in less than 40 min for several samples at the same time, using olive oil samples of only 1-2 g.


Asunto(s)
Antioxidantes/análisis , Colorimetría/métodos , Olea/química , Aceites de Plantas/química , Polifenoles/análisis , Análisis Espectral/métodos , Cromatografía Líquida de Alta Presión/métodos , Dieta , Humanos , Aceite de Oliva , Oxidación-Reducción , Fenoles/análisis , Quinonas/metabolismo
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