Development and Characterization of Extruded Broken Rice and Lupine (&amp;lt;i&amp;gt;Lupinus albus&amp;lt;/i&amp;gt;)

Cíntia Tarabal Oliveira,Renata Adriana Labanca,Márcio Caliari,Márcia Regina Pereira Monteiro,Raquel Linhares Carreira,Érika Maria Roel Gutierrez

doi:10.4236/ajps.2015.612194

Development and Characterization of Extruded Broken Rice and Lupine (&lt;i&gt;Lupinus albus&lt;/i&gt;)

Cíntia Tarabal Oliveira, Renata Adriana Labanca + Show 4 more

Open Access

https://doi.org/10.4236/ajps.2015.612194

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Abstract

Mixtures of cereals and legumes result in products with higher content of high biological value proteins. The thermoplastic extrusion promotes the transformation of chemical, physical and nutritional characteristics of the food such as starch gelatinization and promotes the inactivation of anti-nutritional compounds and enzymes. This study aimed to develop products extruded using broken rice and lupine and to evaluate the physical and chemical characteristics of those products. The expansion index (EI), water solubility (WSI), water absorption (WAI), texture and color were determined for the extruded rice, and Scanning Electron Microscopy (SEM) of the extruded rice was also performed. As the rice concentration in the mixture increased, the EI, WSI and WAI values as well as the a* color parameter were increased too, and the brightness was reduced. An increase in the levels of essential amino acids with the addition of lupine grain to the extrudates was observed. SEM analysis identified intact loose starch granules or pellets in the raw materials, and the extruded samples showed a compact and amorphous shape without apparent starch granules. Due to the structural changes and reduced expansion rate of the extruded mixture prepared with lupine and rice grits, use of the extruded mixtures as snacks would not be suitable. However, these mixtures could be used in pre-gelatinized flour to formulate various products to increase the protein level.

Highlights

Mixtures of cereals and legumes result in products with a higher content of protein with a high biological value
In the second step (Step 2), after extruded mixtures with different percentages of ground lupine (GL) and broken rice (BR) were obtained, the expansion index (EI), water solubility index (WSI), water absorption index (WAI), texture and color of the extrudates were determined, and scanning electron microscopy was performed on the extrudates
Adding 10% white lupine grains to samples of BR resulted in a 10% reduction in total starch and a 27% increase in protein, in addition to elevating the levels of arginine, glycine, isoleucine, leucine, lysine and aspartic acid by 45%, 29%, 39%, 25%, 39% and 47%, respectively, in the final mixture

Summary

Introduction

Mixtures of cereals and legumes result in products with a higher content of protein with a high biological value. While legumes are deficient in sulfurous amino acids and rich in lysine, cereals are deficient in lysine and relatively rich in sulfur-containing amino acids. Cereals and legumes are considered complementary offering advantages in the nutritional quality [1]. Rice is a cereal rich in starch that feeds more than half of the world’s human population. It is the third largest cereal crop in the world, surpassed only by corn and wheat. Broken rice is a kind of rice consisting of grains broken in the milling process

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