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Total Dietary Fiber (total + dietary_fiber)

Distribution by Scientific Domains
Chemistry75%

Selected Abstracts

UTILIZATION OF APRICOT KERNEL FLOUR AS FAT REPLACER IN COOKIES

JOURNAL OF FOOD PROCESSING AND PRESERVATION, Issue 1 2010
I.T. SEKER
ABSTRACT In this study, shortening content in a wire-cut cookie formulation was reduced at 10, 20, 30 and 40% and replaced with apricot kernel flour (AKF). The effects of increased concentrations of AKF on the properties of cookies were investigated. Protein, fat and total dietary fiber (TDF) contents of the apricot kernels were determined as 21.8%, 40.2% and 35.8%, respectively, which confirmed that the apricot kernel is an important source of dietary protein as well as oil and fiber. Addition of AKF decreased the spread ratio and increased the hardness of the cookies (P , 0.01). However, sensory evaluation revealed that the cookies containing AKF were acceptable to the panelists at all concentrations (P , 0.01). TDF contents of the cookies increased significantly (P , 0.01) as the AKF supplemention increased. AKF is a suitable replacer of shortening in cookies at 10 and 20%. PRACTICAL APPLICATIONS Province of Malatya (Turkey) is one of the major apricot and apricot kernel producing regions in the world. Apricot kernels are generally exported and the importing countries use it especially in the production of oil, benzaldehyde, cosmetics, active carbon and aroma. Apricot kernels are also utilized in retail bakeries and consumed as appetizers. Cookies are one of the most popular bakery products and textural characteristics of cookies are highly influenced by their fat content. Health specialists recommend that daily fat consumption should not exceed 30% of the total calories in a diet. In this study, the preparation of apricot kernel flour (AKF), which does not require much processing and has the advantage of including other nutrients, was achieved. With the production of high-fiber and low-fat cookies by the usage of AKF, an exciting new potential as a food ingredient, especially in cereal products, is offered. [source]

EFFECTS OF EXTRUSION CONDITIONS ON PHYSICOCHEMICAL PROPERTIES OF A MUTANT RICE CULTIVAR, GOAMI2 , HIGH IN NONDIGESTIBLE CARBOHYDRATES

JOURNAL OF FOOD QUALITY, Issue 5 2008
I. CHOI
ABSTRACT A mutant rice Goami2, a cultivar high in nondigestible carbohydrates (NDCs), was extrusion-cooked at feed moisture (20, 25%), screw speed (200, 300 rpm) and barrel temperature (110, 120 and 130C). Effects of extrusion conditions on the physical and functional properties were investigated. NDCs were determined by total dietary fiber (TDF) and resistant starch (RS) contents. Increasing moisture resulted in an increment of density, water absorption index (WAI) and hardness, and a decrement in expansion and water solubility index (WSI). A higher barrel temperature decreased the hardness and increased the WSI probably due to a higher proportion of gelatinized starch. Extrusion caused a reduction in TDF in the extrudates, as well as a significant decrease in RS contents. However, extrudates processed at moisture (%), screw speed (rpm) and barrel temperature (C) combinations of 25/200/110 and 25/200/120 showed no significant difference in TDF contents compared with its raw rice. Multiple regression models showed that feed moisture had the most pronounced effect on extrudate qualities, followed by barrel temperature and screw speed. PRACTICAL APPLICATIONS Rice, being one of the primary dietary sources of carbohydrates worldwide, is the major energy and nutritional sources. In recent years, demands have been increasing for rice with a wide range of value-added properties, such as enhanced nutrient, aroma, color and rice kernel shape, including functional properties. Goami2 is a mutant rice of Ilpumbyeo, a high japonica rice cultivar, and has been revealed to have higher nondigestible fractions. However, Goami2 rice has unsuitable properties for traditional cooking because of the difficulty of gelatinization, which might result in a hard texture of cooked rice compared with that of ordinary rice. On the basis of its nutritional and functional benefits, exploiting the possible utilization of Goami2 for processed food products would increase the potential consumption of Goami2 for various food products. [source]

Production of Resistant Starch by Extrusion Cooking of Acid-Modified Normal-Maize Starch

JOURNAL OF FOOD SCIENCE, Issue 7 2009
Jovin Hasjim
ABSTRACT:, The objective of this study was to utilize extrusion cooking and hydrothermal treatment to produce resistant starch (RS) as an economical alternative to a batch-cooking process. A hydrothermal treatment (110 °C, 3 d) of batch-cooked and extruded starch samples facilitated propagation of heat-stable starch crystallites and increased the RS contents from 2.1% to 7.7% up to 17.4% determined using AOAC Method 991.43 for total dietary fiber. When starch samples were batch cooked and hydrothermally treated at a moisture content below 70%, acid-modified normal-maize starch (AMMS) produced a greater RS content than did native normal-maize starch (NMS). This was attributed to the partially hydrolyzed, smaller molecules in the AMMS, which had greater mobility and freedom than the larger molecules in the NMS. The RS contents of the batch-cooked and extruded AMMS products after the hydrothermal treatment were similar. A freezing treatment of the AMMS samples at ,20 °C prior to the hydrothermal treatment did not increase the RS content. The DSC thermograms and the X-ray diffractograms showed that retrograded amylose and crystalline starch,lipid complex, which had melting temperatures above 100 °C, accounted for the RS contents. [source]

Neuroprotective effects of Triticum aestivum L. against ,-Amyloid-induced cell death and memory impairments

PHYTOTHERAPY RESEARCH, Issue 1 2010
Jung-Hee Jang
Abstract ,-Amyloid (A,) is a key component of senile plaques, neuropathological hallmarks of Alzheimer's disease (AD) and has been reported to induce cell death via oxidative stress. This study investigated the protective effects of Triticum aestivum L. (TAL) on A,-induced apoptosis in SH-SY5Y cells and cognitive dysfunctions in Sprague-Dawley (SD) rats. Cells treated with A, exhibited decreased viability and apoptotic features, such as DNA fragmentation, alterations in mitochondria and an increased Bax/Bcl-2 ratio, which were attenuated by TAL extract (TALE) pretreatment. To elucidate the neuroprotective mechanisms of TALE, the study examined A,-induced oxidative stress and cellular defense. TALE pretreatment suppressed A,-increased intracellular accumulation of reactive oxygen species (ROS) via up-regulation of glutathione, an essential endogenous antioxidant. To further verify the effect of TALE on memory impairments, A, or scopolamine was injected in SD rats and a water maze task conducted as a spatial memory test. A, or scopolamine treatment increased the time taken to find the platform during training trials, which was decreased by TALE pretreatment. Furthermore, one of the active components of TALE, total dietary fiber also effectively inhibited A,-induced cytotoxicity and scopolamine-caused memory deficits. These results suggest that TALE may have preventive and/or therapeutic potential in the management of AD. Copyright © 2009 John Wiley & Sons, Ltd. [source]