Abstract

Starch digestibility may be affected by food microstructural changes, as well as by specific interactions with some biomolecules, such as soluble dietary fibers (SDFs). It is well-known that acrylamide (AA) is a toxic and potentially carcinogenic compound formed in starchy food products processed at temperatures above 120 degrees C. This study aimed to investigate the effect of the addition of SDF and green tea polyphenols (GTP) on AA formation and in vitro starch digestibility in baked starchy matrices. The formulations were prepared using gluten and wheat starch, ensuring similar to 40 +/- 2% (wet basis, w.b.) moisture in the doughs. In some samples, 7.5% (dry basis, d.b.) of starch was replaced with inulin (IN), polydextrose (PD) or partially hydrolyzed guar gum (PHGG), and/or with GTP at 1% (d.b). Acrylamide was determined by gas chromatography-mass spectrometry, and the in vitro starch digestibility using the Englyst method. The GTP was able to reduce AA content by similar to 48%, and a combination of IN-GTP allowed it to be reduced by up to similar to 64%, revealing the lowest rapidly available glucose content (similar to 17 mg/g glucose). While a PD-GTP mixture reduced the AA content by around similar to 57% and gave the highest unavailable glucose fraction (similar to 74 mg/g glucose) compared to the control. This study showed how functional ingredients could be used to develop successfully healthier starchy bakery foods.