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  • Küçük Resim
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    Effects of resistant starch type 4 supplementation of bread on in vitro glycemic index value, bile acid-binding capacity, and mineral bioavailability
    (Wiley, 2020) Aribas, Merve; Kahraman, Kevser; Köksel, Hamit
    Background and objectives RS4 is an alternative dietary fiber source with some potential physiological benefits giving better quality end products. Common dietary fiber sources including bran usually have deteriorative effect on color, textural properties, and consumer acceptability of breads. This study was designed to investigate the effect of RS4 supplementation on the bread quality as well as mineral bioavailability, bile acid-binding capacity, in vitro glycemic index. Findings Loaf volumes of the breads supplemented with RS4 were higher than the bread supplemented with wheat bran (WB). Among the bread samples, the one supplemented with WB had the darkest color and highest firmness values. During storage, WB supplementation caused the highest increase in bread firmness. RS4 supplementation caused higher total dietary fiber (TDF) and mineral bioavailability values and lower in vitro glycemic index than bran supplementation. Conclusions RS4 supplementation of bread caused increases in TDF content, bile acid-binding capacity, and mineral bioavailability and has less deteriorative effect on the quality than WB supplementation. Breads supplemented with WB had a faster staling rate than the breads supplemented with RS4. Significance and novelty Besides the better appearance and texture of the RS4 supplemented bread samples, the improvement in nutritional properties proved that RS4 is a better dietary fiber source than WB.
  • Küçük Resim
    Öğe
    In vitro glycemic index, bile acid binding capacity and mineral bioavailability of spaghetti supplemented with resistant starch type 4 and wheat bran
    (Elsevier, 2020) Aribas, Merve; Kahraman, Keyser; Köksel, Hamit
    In this study effects of resistant starch type 4 (RS4) on nutritional and quality properties of spaghetti were investigated. RS4 was added into spaghetti at different levels (15, 20 and 25%). Wheat bran was also added to spaghetti at 15% level. RS4 supplementation caused lower negative effects on quality properties (total organic matter value, color and textural properties) than bran supplementation. The results point out that RS4 supplementation of spaghetti caused higher total dietary fiber content and comparable glycemic index value at the same bran supplementation level. RS4 caused an increase in bile acid binding capacity and expected to have positive effects on cholesterol metabolism. Moreover, RS4 supplemented spaghetti had generally better mineral bioavailability values compared to bran supplemented and control spaghettis. Overall results indicated that RS4 supplementation provided improvement in nutritional properties of spaghetti and can be an alternative ingredient for fiber supplemented spaghetti compared to bran.