Formulation of Zero-Trans Crystalized Fats Produced from Palm Stearin and High Oleic Safflower Oil Blends

Nydia E Buitimea-Cantúa,María Guadalupe Salazar-García,Génesis Vidal Buitimea-Cantúa,Sergio O Serna-Saldívar,Refugio Ortega-Ramirez,Reyna Luz Vidal-Quintanar

doi:10.1155/2017/1253976

Abstract

High intake of trans fat is associated with several chronic diseases such as cardiovascular disease and cancer. Fat blends, produced by direct blending process of palm stearin (PS) with high oleic safflower oil (HOSO) in different concentrations, were investigated. The effects of the PS addition (50, 70, or 90%) and the rate of agitation (RA) (1000, 2000, or 3000 rpm) on physical properties, fatty acid profile (FAP), trans fatty acids (TFA), crystal structure, and consistency were researched. The blend containing 50% of each sort of oil (50% PS/50% HOSO) showed that melting point and features were similar to the control shortening. The saturated fatty acids (SFA) were higher followed by monounsaturated (MUFA) and polyunsaturated fatty acids (PUFA). Significant differences in the content of palmitic and oleic acids among blends were observed. The 50% PS/50% HOSO blend contained higher oleic acid (42.9%) whereas the 90% PS/10% HOSO was higher in palmitic acid (56.9%). The blending of PS/HOSO promoted the β crystal polymorphic forms. The direct blending process of equal amounts of PS and HOSO was an adequate strategy to formulate a new zero-trans crystallized vegetable fats with characteristics similar to commercial counterparts with well-balanced fats rich in both omega 3 and omega 6 fatty acids.

Highlights

Bakery shortenings prepared by hydrogenation process of vegetable oils contain levels between 20 and 40% of trans fatty acids (TFA) [1]
The results of the color, refraction index, melting point, density, acidity, moisture, and peroxide and iodine values of palm stearin, high oleic safflower oil, PS/HOSO crystallized blends mixed at different agitation rates, and HCS are depicted in Tables 1 and 2
The direct blending process proposed indicated that the 50% PS/50% HOSO blend was ideal for producing zerotrans crystallized fats because this particular blend showed a melting point similar to commercial bakery shortening

Summary

Introduction

Bakery shortenings prepared by hydrogenation process of vegetable oils contain levels between 20 and 40% of trans fatty acids (TFA) [1]. TFA have negative health implications especially in terms of the ratio of high-density to low-density lipoproteins, which is correlated with risk of cardiovascular diseases [2]. Several published reports have indicated that TFA have adverse effects on serum cholesterol, triglyceride levels, and coronary heart diseases [3, 4]. The harmful effects of TFA on the ratio of total cholesterol to HDL cholesterol are reported to be twice compared to saturated FA [5]. Kromhout et al [6] concluded that a gram-for-gram basis TFA has been associated with an increase of 15 times of greater incidence of coronary heart diseases than SFA. TFA have been related with risk of breast and colon cancer, diabetes, obesity, and allergies [2]

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