Effects of high-pressure microfluidization treatment on the structural, physiochemical properties of insoluble dietary fiber in highland barley bran.

High-pressure microfluidization treatment (HPMT) was performed on the insoluble dietary fiber (IDF) of highland barley bran (HBB), with conditions set at 60 MPa (IDF-60), 120 MPa (IDF-120), and two consecutive high-pressure treatments at 120 MPa (IDF-120-2), respectively. Then the particle size, structural, physicochemical and adsorption properties of different IDF samples were analyzed. After HPMT, the particle size of IDF samples gradiently decreased (p < 0.05), and part of IDF was transferred into soluble dietary fiber (SDF), accompanied by the decrease of hemicellulose and lignin content. In addition, the morphology of the IDF samples became more fragmented and wrinkled, and the two consecutive treatments at 120 MPa significantly damaged the crystalline structure of the IDF. Moreover, the adsorption capacities to water, oil, cholesterol, and NO 2 − were basically enhanced with the increase of treatment pressure and treatment number. The IDF-120-2 sample had the strongest water/oil-holding, swelling, and cholesterol trapping capacities, and the IDF-120 showed strongest NO 2 − trapping capacity (pH = 2). Through the correlation analysis, the adsorption capacities were positively to the particle size and SDF content, and negatively correlated with the specific surface area (SSA) and IDF content. The adsorption capacities of IDF for the four substances were positively correlated with each other. [Display omitted] • Particle size (PS) of insoluble dietary fiber (IDF) decreased after high-pressure microfluidization treatment (HPMT). • HPMT increased the specific surface area (SSA) of the IDF and partially destroyed the crystalline structure of the IDF. • Water/oil holding capacity of modified IDF increased by 46.71% and 54.4%. • Adsorption capacity (AC) of modified IDF for cholesterol and NO 2 - increased by 68.03% and 19.63%. • AC of modified IDF was positively to the PS, SDF content, and negatively to the SSA and IDF content. [ABSTRACT FROM AUTHOR]