Abstract
The byproducts of rice bran oil processes are a good source of fat-soluble nutraceuticals, including γ-oryzanol, phytosterol, and policosanols. This study aimed to investigate the effects of green technology with low pressure as the subcritical fluid extraction with dimethyl ether (SUBFDME) on the amount of γ-oryzanol, phytosterol, and policosanol extracted from the byproducts and to increase the purity of policosanols. The SUBFDME extraction apparatus was operated under pressures below 1 MPa. Compared to the chemical extraction method, SUBFDME gave the highest content of γ-oryzanol at 924.51 mg/100 g from defatted rice bran, followed by 829.88 mg/100 g from the filter cake, while the highest phytosterol content was 367.54 mg/100 g. Transesterification gave the highest extraction yield of 43.71% with the highest policosanol content (30,787 mg/100 g), and the SUBFDME method increased the policosanol level from transesterified rice bran wax to 84,913.14 mg/100 g. The results indicate that the SUBFDME method is a promising tool to extract γ-oryzanol and phytosterol and a simple and effective technique to increase the purity of policosanol. The study presented a novel technique for the potential use of SUBSFDME as an alternative low-pressure and low-temperature technique to extract γ-oryzanol and phytosterol. The combination of transesterification and the SUBFDME technique is a potential simple two-step method to extract and purify policosanol, which is beneficial for the manufacture of dietary supplements, functional foods and pharmaceutical products.
Highlights
The byproducts of rice bran oil processes are a good source of fat-soluble nutraceuticals, including γ-oryzanol, phytosterol, and policosanols
The samples extracted by subcritical fluid extraction with dimethyl ether (SUBFDME) were a yellowish brown oily substance, while those extracted by the chemical reaction of TE were in a solid form, and their color was similar to their origin samples (Fig. 2a)
The total amount of nutraceutical compounds found from DFRB-C by subcritical fluid extraction technique (SUBFE) was slightly lower (1194.96 mg/100 g) than that found from DFRB-S (1233.51 mg/100 g) using the same extraction technique
Summary
The byproducts of rice bran oil processes are a good source of fat-soluble nutraceuticals, including γ-oryzanol, phytosterol, and policosanols. Overwhelming evidence supports the valuable bioactivities of γ-oryzanol, tocotrienol, tocopherol, phytosterol, and policosanol (PCs), including the reduction of oxidative stress activities, anticancer effects, anti-inflammatory properties, cholesterol-lowering effects and protection against cardiovascular d isease[2,3,4,5]. Of these nutraceuticals, PCs are one of many items of research focusing on their bioactivity related to the decrease in blood cholesterol. PCs are available in the market as a dietary supplement that is mostly isolated and purified from various sources such as sugar cane wax (Saccharum officinarum L.) or rice bran wax (Oryza sativa L.)
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