Elena Diez-Sánchez scite author profile

Blackcurrant pomace, rich in fiber and polyphenols, can be used as added-value ingredient for food formulation. However, the bounding of polyphenols to pomace and the interactions that take place with food nutrients modify polyphenol bioaccessibility. This work studied the interactions between polyphenols and the main macronutrients in foods, and the changes that occurred during in vitro digestion, using model systems. Model systems were formulated with (i) water, (ii) wheat starch, (iii) olive oil, (iv) whey protein, and (v) a model combining all the ingredients. Polyphenols were added from two sources: as pomace and as a polyphenolic pomace extract. Interactions between polyphenols and macronutrients were studied using light microscopy; total phenolic content (TPC) and antioxidant capacity (AC) were determined before and after the in vitro digestion process. Lastly, the bioaccessibility of the samples was calculated. Polyphenols incorporated into the model systems as pomace increased their bioaccessibility if compared to polyphenols added as extract. For single-nutrient model systems formulated with pomace, the bioaccessibility was higher than when the system contained all the nutrients. Of all the components studied, the greatest effect on bioaccessibility was observed for proteins.

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Changing chemical leavening to improve the structural, textural and sensory properties of functional cakes with blackcurrant pomace

Diez-Sánchez

Llorca

Tárrega

et al. 2020

LWT

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Blackcurrant pomace is a by-product with bioactive compounds and dietary fibre, which can be used as ingredient to elaborate bakery products. However, its high content of fibre results in techno-functional problems affecting texture and sensory properties. We hypothesised that the use of different chemical leavening agents can counteract the negative effects of pomace addition improving the quality of the final product. Citric acid, sodium acid pyrophosphate, and glucono-δ-lactone were used as leavening agents in combination with sodium bicarbonate (encapsulated and free). A micro-baking simulation showed the expansion of the bubbles in the batter. In the cakes, the structure, texture, colour and sensory profile were studied. Cakes prepared with pyrophosphate (regardless bicarbonate type) and glucono-δ-lactone (plus free bicarbonate) incorporated more air, which led to bigger gas cells and a softer instrumental texture. These cakes were perceived as brittle and spongy. All the formulations were acceptable according to an untrained sensory panel.

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Extruded flour as techno-functional ingredient in muffins with berry pomace

Diez-Sánchez

Quiles

Llorca

et al. 2019

LWT

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Using different fibers to replace fat in sponge cakes: In vitro starch digestion and physico-structural studies

Diez-Sánchez

Llorca

Quiles

et al. 2018

Food sci. technol. int.

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This study assessed the effect of substituting 30% of fat by soluble, insoluble fiber, or a mix of both fibers in sponge cake quality, structure, acceptability, and starch digestibility. The apparent viscosity of the different formulations was measured and micro-baking was simulated. Texture profile tests were carried out and the crumb structure was examined. In vitro digestion was performed to study the digestibility of starch and a sensory test was carried out to know consumer acceptance. The soluble fiber (maltodextrin) affected the structure and quality of the cakes less than the insoluble fiber (potato fiber) and the use of soluble fiber in the formulation resulted in lower glucose release under in vitro conditions. Moreover, the consumer did not find differences among the control cake and the cakes prepared with soluble fiber. Considering the results as a whole, soluble fiber may be used for partial replacement of fat in sponge cake formulations and may constitute an appropriate strategy for obtaining healthy sponge cakes.

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Optimizing High Pressure Processing Parameters to Produce Milkshakes Using Chokeberry Pomace

Diez-Sánchez

Martínez

Rodrigo

et al. 2020

Foods

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High hydrostatic pressure is a non-thermal treatment of great interest because of its importance for producing food with additional or enhanced benefits above their nutritional value. In the present study, the effect of high hydrostatic pressure processing parameters (200–500 MPa; 1–10 min) is investigated through response surface methodology (RSM) to optimize the treatment conditions, maximizing the phenol content and antioxidant capacity while minimizing microbiological survival, in milkshakes prepared with chokeberry pomace (2.5–10%). The measurement of fluorescence intensity of the samples was used as an indicator of total phenolic content and antioxidant capacity. The results showed that the intensity of the treatments had different effects on the milkshakes. The RSM described that the greatest retention of phenolic compounds and antioxidant capacity with minimum microbiological survival were found at 500 MPa for 10 min and 10% (w/v) chokeberry pomace. Therefore, this study offers the opportunity to develop microbiologically safe novel dairy products of high nutritional quality.

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