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- Title
Microstructural Changes and In Vitro Digestibility of Maize Starch Treated with Different Calcium Compounds Used in Nixtamalization Processes.
- Authors
Roldan‐Cruz, Cesar; Garcia‐Diaz, Samuel; Garcia‐Hernandez, Angeles; Alvarez‐Ramirez, Jose; Vernon‐Carter, E. Jaime
- Abstract
Maize starch dispersions (5 g/100 mL water) are treated with Ca(OH)2 (0.2 g/100 g starch), emulating the traditional nixtamalization process, and with CaCl2 or Ca(CO)3 (1.0g/100 g starch) salts, emulating ecological nixtamalization processes. The effect of these calcium compounds upon the in vitro digestibility of maize starch is evaluated in comparison to an untreated starch dispersion used as control. The Ca(OH)2 treatment significantly increases the rapidly digestible starch (RDS) fraction (from ≈33 to 64%) and significantly decreases the slowly digestible starch (SDS) fraction (from ≈63 to 30%), while both salt treatments lead to significant decreases in the RDS fraction (from ≈33 to 17%) and significant increases in the SDS fraction (from ≈63 to 76%), and resistant starch (RS) fraction (from ≈2.8 to 6.8%), compared to the untreated control. The mechanisms responsible for causing changes in the digestible starch fractions are not fully elucidated. Optical micrographs and different analytical methods (rheology, attenuated total reflection Fourier transform infrared, X‐ray photoelectron spectrometry and nuclear magnetic resonance) are used to explore the molecular organization of untreated and the different calcium‐treated samples. It is found that the disruption of insoluble remnants (ghosts) by alkali treatment and the formation of calcium‐mediated cross‐linking structures play an important role in the in vitro digestibility and microstructural changes of maize starch.
- Subjects
CORNSTARCH; CALCIUM compounds; NUCLEAR magnetic resonance; STARCH
- Publication
Starch / Staerke, 2020, Vol 72, Issue 9/10, p1
- ISSN
0038-9056
- Publication type
Article
- DOI
10.1002/star.201900303