Abstract
Zero-trans edible fats attractive to be used for shortenings or margarines were designed solely from rice bran oil (RBO). For this purpose, RBO was fully hydrogenated, blended with the original oil at different percentages, and finally, blends were interesterified by an enzyme-catalyzed process. The interesterification process reduced the concentration of trisaturated and triunsaturated triglycerides and increased the concentration of medium saturation degree molecules, thus increasing their compatibility and causing the moderation of the melting point, as compared with blends. Conversely to blends, products showed a high tendency to crystallize under the β’ polymorph, which is the preferred one for products destined for many edible applications. Results demonstrated that the proper combination of different technologies (total hydrogenation, blending and interesterification) is a versatile and useful technology for designing zero-trans fats from RBO, attractive for the confection of shortenings or margarines for different applications depending on the proportion of each component in the starting blend. This strategy offers an attractive alternative for the diversification of RBO utilization, a valuable vegetable oil still underexploited, providing attractive fats useful for structuring different type of foods.
Highlights
Several nutritional studies have demonstrated the direct relationship between the intake of trans fatty acids (TFA) and the increase in the serum levels of low-density lipoproteins (LDL) and the decrease of high-density lipoproteins (HDL), notably increasing the risk of suffering cholesterol risk of cardiovascular diseases (Oteng and Kersten, 2020).Considering this problem, the World Health Organization has recently launched the REPLACE program, which involves an action package providing a strategic approach to eliminating industrially produced TFA from national food supplies, with the goal of global elimination by 2023 (WHO, 2018). undoubtedly such a program is necessary, it involves a significant challenge for the food industry
Results demonstrated that the proper combination of different technologies is a versatile and useful technology for designing zero-trans fats from rice bran oil (RBO), attractive for the confection of shortenings or margarines for different applications depending on the proportion of each component in the starting blend
Considering those particular characteristics of RBO, in this work, we propose the blending of this oil at different proportions with fully hydrogenated rice bran oil (FHRBO), followed by the enzyme-catalyzed interesterification of the blend, for the obtention of zero-trans fats rich in the native bioactive compounds of RBO and with improved crystallization properties, attractive to be destined to the confection of zero-trans margarine and shortenings
Summary
Several nutritional studies have demonstrated the direct relationship between the intake of trans fatty acids (TFA) and the increase in the serum levels of low-density lipoproteins (LDL) and the decrease of high-density lipoproteins (HDL), notably increasing the risk of suffering cholesterol risk of cardiovascular diseases (Oteng and Kersten, 2020). It has been widely observed that the b’ polymorphic form, required in fats destined to shortenings or margarines, is promoted by fats whose TAG contains different kinds of fatty acid moieties (Sato, 2001) Considering those particular characteristics of RBO, in this work, we propose the blending of this oil at different proportions with fully hydrogenated rice bran oil (FHRBO), followed by the enzyme-catalyzed interesterification of the blend, for the obtention of zero-trans fats rich in the native bioactive compounds of RBO and with improved crystallization properties, attractive to be destined to the confection of zero-trans margarine and shortenings. This work proposes an attractive alternative to contribute in this direction
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