Effect of peach puree incorportion on cookie quality and on simulated digestion of polyphenols and antioxidant properties.

The aim of this work was to identify and quantify the bioaccesible phenolic compounds and evaluate their relationship with the antioxidant properties of three different cookies formulated with 10.5% peach pulp incorporation and 50% fat or added-sucrose reduction. Peach pulp and dietary fiber were incorporated in cookie formulation and two levels of fat or sucrose were analyzed. Cookie quality was modified by fruit incorporation and reduction of fat and added-sucrose. Fruit incorporation changed the polyphenol profile and improved antioxidant properties. Most phenolic compounds quantified in both the extracts and the different stages of the simulated digestion were higher in the sucrose/fat reduced samples than in the control samples, which represents a nutritional improvement of the pulp-enriched cookies. Evaluation of the bioaccessibility of polyphenols from cookies showed that a fraction of polyphenol could be absorbed by the small intestine. This fraction ranged between ~21% and ~25%, according to the sample.

Incorporation of dietary fiber on the cookie dough. Effects on thermal properties and water availability.

In the present work it was analyzed the water mobility by characterizing the thermo-gravimetric analysis of the cookie dough with the incorporation of dietary fibers. The fibers analyzed were: inulin (IN), oat fiber (OF), high amylose maize starch (RSII) and phosphate distarch-phosphate (RSIV). Four tests were performed: thermo-gravimetric analysis (TGA), pasting profile analysis using water and a solution of 50% sucrose as a solvent, and the study of the ultrastructure of the flour and fiber by SEM and particle size distribution. Changes in the thermo-gravimetric profile were explained by the pasting profile of composites and the ultrastructure of the wheat flour and fibers. OF and IN incorporation changed substantially dough water loss profile and rate. The addition of fibers produced a decrease in the starch pasting profile and inulin showed the highest reduction since less water was available for the hydration of wheat flour starch granules.

Influence of the incorporation of fibers in biscuit dough on proton mobility characterized by time domain NMR.

The effect of fiber addition on the distribution and mobility of protons in biscuits is studied by using low resolution time domain nuclear magnetic resonance (TD-NMR). The proportion of flour is reduced in order to incorporate inulin and oat fiber. NMR temperature dependent experiments are carried out in order to gain insight on the processes occurring in biscuit baking. Proton populations were identified measuring spin-spin relaxation times (T2). The major change in the relaxation profiles upon incorporation of fibers corresponds to mobile water molecules, which appear to be related to dough spreading behavior and biscuit quality. Biscuit samples baked in a commercial oven were studied by two dimensional spin-lattice/spin-spin (T1-T2) relaxation maps. The T1/T2 ratio is used as an indicator of the population mobility, where changes in the mobility of water in contact with flour components as starch, proteins and pentosans are observed.