Effect of maize processing on amylose-lipid complex in pozole, a traditional Mexican dish

One of the most traditional foods in Mexico is pozole (a soup of maize grains with pork). Maize starch interacts with fatty acids during its preparation, generating amylose-lipid complexes. This study aimed to determine the effect of lard concentration on the formation of amylose-lipid complexes and their effect on the physicochemical properties of the starch after pozole preparation. Three maize varieties were nixtamalized and cooked, using 0, 6, 8, and 10 % lard. Grain physical parameters, viscosity, resistant starch, and detailed characterization of starch granules were analyzed. X-ray diffraction patterns showed structural damage in the crystalline starch structure. Two of the maize varieties showed an amylose-lipid endotherm with the addition of lard. The viscosity profile was affected by grain hardness and heat treatment, whereas lard addition decreased the viscosity of samples. The addition of higher percentages of lard (8 and 10%) favors the formation of amylose-lipid complexes, as shown in thermal properties and resistant starch

Bioaccessibility and Intestinal Permeability from Andean Blackberry (Rubus glaucus Benth) Powders Encapsulated with OSA-Modified FHIA-21 Banana Starch

Modified starches for bananas can be used to encapsulate underutilized fruits such as Andean blackberry due to its content of phenolic compounds. This research aimed to assess the bioaccessibility and intestinal permeability of phenolic compounds from Andean blackberry powders encapsulated in octenyl succinic anhydride (OSA)-modified Gros Michel banana starch. Although low bioaccessibilities were found for total phenolics (up to 6%) during the in vitro digestion, most of them were chlorogenic acid and quercetin, released at high apparent permeability values (5–12 × 10−4 cm/s). OSA-banana starches are suitable encapsulating matrices for blackberry polyphenols, ensuring their targeted release at the small intestine