Effect of dynamic high pressure microfluidization modified insoluble dietary fiber on gelatinization and rheology of rice starch

Effect of dynamic high pressure microfluidization modified insoluble dietary fiber on gelatinization and rheology of rice starch

Modification of insoluble dietary fiber (IDF) for facilitating its applications has been encouraged in food industry. IDF from soybean residues was treated by dynamic high pressure microfluidization (DHPM), and effect of modified IDF (MIDF) addition on gelatinization and rheology of rice starch (RS)...

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Veröffentlicht in:Food hydrocolloids 2016-06, Vol.57, p.55-61
Hauptverfasser: Liu, Cheng-mei, Liang, Rui-hong, Dai, Tao-tao, Ye, Jiang-ping, Zeng, Zi-cong, Luo, Shun-jing, Chen, Jun
Format: Artikel
Sprache:eng
Schlagworte:
Constraining
Dynamic high pressure microfluidization
Dynamics
Fibers
Foods
Gelatinization
Insoluble dietary fiber
Pastes
Rheology
Rice
Rice starch
Starches
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container_end_page 61
container_issue
container_start_page 55
container_title Food hydrocolloids
container_volume 57
creator Liu, Cheng-mei
Liang, Rui-hong
Dai, Tao-tao
Ye, Jiang-ping
Zeng, Zi-cong
Luo, Shun-jing
Chen, Jun
description Modification of insoluble dietary fiber (IDF) for facilitating its applications has been encouraged in food industry. IDF from soybean residues was treated by dynamic high pressure microfluidization (DHPM), and effect of modified IDF (MIDF) addition on gelatinization and rheology of rice starch (RS) was investigated. It was found that DHPM could effectively reduce particle size of IDF, induce puffed morphology, and increase their water holding capacity. Addition of IDF/MIDF to RS increased peak and final viscosity of paste, and MIDF decreased breakdown and setback value, indicating MIDF may be a great candidate for increasing stability of paste and restraining short-term retrogradation of starch gels. Dynamic rheology indicated that supplementing MIDF changed rheological properties of RS less than IDF did. The results suggested that DHPM would provide an opportunity to change the physicochemical properties of IDF, and the resulting MIDF may be more suitable for designing fiber-enriched products. [Display omitted] •Insoluble dietary fiber from soybean residue was microfluidized (DHPM).•DHPM changed particle size, morphology and water holding capacity of IDF.•Adding IDF or modified IDF changed pasting and rheology of rice starch.•Modified IDF may be suitable for designing fiber-enriched starchy foods.
doi_str_mv 10.1016/j.foodhyd.2016.01.015
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IDF from soybean residues was treated by dynamic high pressure microfluidization (DHPM), and effect of modified IDF (MIDF) addition on gelatinization and rheology of rice starch (RS) was investigated. It was found that DHPM could effectively reduce particle size of IDF, induce puffed morphology, and increase their water holding capacity. Addition of IDF/MIDF to RS increased peak and final viscosity of paste, and MIDF decreased breakdown and setback value, indicating MIDF may be a great candidate for increasing stability of paste and restraining short-term retrogradation of starch gels. Dynamic rheology indicated that supplementing MIDF changed rheological properties of RS less than IDF did. The results suggested that DHPM would provide an opportunity to change the physicochemical properties of IDF, and the resulting MIDF may be more suitable for designing fiber-enriched products. 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IDF from soybean residues was treated by dynamic high pressure microfluidization (DHPM), and effect of modified IDF (MIDF) addition on gelatinization and rheology of rice starch (RS) was investigated. It was found that DHPM could effectively reduce particle size of IDF, induce puffed morphology, and increase their water holding capacity. Addition of IDF/MIDF to RS increased peak and final viscosity of paste, and MIDF decreased breakdown and setback value, indicating MIDF may be a great candidate for increasing stability of paste and restraining short-term retrogradation of starch gels. Dynamic rheology indicated that supplementing MIDF changed rheological properties of RS less than IDF did. The results suggested that DHPM would provide an opportunity to change the physicochemical properties of IDF, and the resulting MIDF may be more suitable for designing fiber-enriched products. [Display omitted] •Insoluble dietary fiber from soybean residue was microfluidized (DHPM).•DHPM changed particle size, morphology and water holding capacity of IDF.•Adding IDF or modified IDF changed pasting and rheology of rice starch.•Modified IDF may be suitable for designing fiber-enriched starchy foods.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.foodhyd.2016.01.015</doi><tpages>7</tpages></addata></record>
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subjects Constraining
Dynamic high pressure microfluidization
Dynamics
Fibers
Foods
Gelatinization
Insoluble dietary fiber
Pastes
Rheology
Rice
Rice starch
Starches
title Effect of dynamic high pressure microfluidization modified insoluble dietary fiber on gelatinization and rheology of rice starch
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