Lucia Padalino scite author profile

The use of gluten-free products is increasing since a growing number of people are suffering from celiac disease and thereby need gluten-free diet. Gluten is responsible for the visco-elastic characteristics of wheat-based products; therefore, its lack makes the gluten-free products not similar to wheat-based product, with scarce textural properties. This reason constitutes the major industrial limitation. Thus, obtaining good-quality gluten-free products represents a technological challenge. This review reports the main strategies adopted to produce high quality gluten-free pasta and bread. They are mainly obtained by the utilization of specific ingredients (hydrocolloids, proteins or enzymes) to be incorporated into the standard formulation or the adoption of proper technological variables that can enhance above all the functional properties, the texture and the taste.

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Use of purple durum wheat to produce naturally functional fresh and dry pasta

Ficco

Simone

Leonardis

et al. 2016

Food Chemistry

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In this study, the effects of different milling procedures (roller-milling vs. stone-milling) and pasta processing (fresh vs. dried spaghetti), and cooking on the antioxidant components and sensory properties of purple durum wheat were investigated. Milling and pasta processing were performed using one purple and one conventional non-pigmented durum wheat genotypes, and the end-products were compared with commercial pasta. The results show that the stone milling process preserved more compounds with high health value (total fibre and carotenoids, and in the purple genotype, also anthocyanins) compared to roller-milling. The drying process significantly (p<0.05) reduced the content of anthocyanins (21.42 μg/g vs. 46.32 μg/g) and carotenoids (3.77 μg/g vs. 4.04 μg/g) with respect to the pasteurisation process involved in fresh pasta production. The sensory properties of pasta from the purple genotype did not significantly differ from commercial wholemeal pasta, and its in vitro glycemic index was even lower. Thus, it is possible to consider this genetic material as a good ingredient for the production of functional foods from cereals naturally rich in bioactive compounds.

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Chemical composition, sensory and cooking quality evaluation of durum wheat spaghetti enriched with pea flour

Padalino

Mastromatteo

Lecce

et al. 2013

Int J of Food Sci Tech

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Summary The goal of the study was to obtain spaghetti enriched with pea flour with sensory properties close to conventional pasta. To this aim, the study has been organised in two subsequent trials. In the first, the pea flour amount added to the spaghetti was continuously increased until the overall sensory quality reached its threshold value (pea flour concentration = 15%). In fact, the spaghetti samples supplemented with 15% pea flour (15%S‐P) showed less elasticity, unpleasant colour and higher firmness compared to the control sample (CTRL). The second step was aimed to improve the overall sensory quality of the 15%S‐P spaghetti by means of guar gum (GUAR). The sample with GUAR (15%S‐P/GUAR) showed a pleasant colour, odour and taste. Furthermore, the 15%S‐P/GUAR sample recorded a low starch digestibility value (i.e. 54) and a higher soluble fibre content with respect to the 15%S‐P sample.

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Manufacture and characterization of gluten-free spaghetti enriched with vegetable flour

Padalino

Mastromatteo

Lecce

et al. 2013

Journal of Cereal Science

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Supercritical carbon dioxide extraction of brewer's spent grain

Spinelli

Conte

Lecce

et al. 2016

The Journal of Supercritical Fluids

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Lucia Padalino

Overview on the General Approaches to Improve Gluten-Free Pasta and Bread

Use of purple durum wheat to produce naturally functional fresh and dry pasta

Chemical composition, sensory and cooking quality evaluation of durum wheat spaghetti enriched with pea flour

Manufacture and characterization of gluten-free spaghetti enriched with vegetable flour

Supercritical carbon dioxide extraction of brewer's spent grain

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