Lorena Susana Sciarini scite author profile

Gluten is a major component of some cereals and is responsible for flour technological characteristics to make bakery products. However, gluten must be eliminated from the diet of celiac patients because its ingestion causes serious intestinal damage. The objectives of this study were to assess the effect of different flours and their mixtures on thermal and pasting properties of batters, and to study the quality parameters and staling rate of gluten-free breads. Starch gelatinization temperatures and enthalpies depended on batter composition. Soy flour addition had a higher effect on rice than on corn starch, indicating some differential interaction between starch and proteins. Inactive soy flour incorporation improved all bread quality parameters in both corn-and rice-based breads. Higher batter firmness of formulations with soy addition (extrusion force was doubled in rice/soy and rice/corn/soy batters with regard to rice and rice/corn batters) partially explained higher specific volume (rice breads: 1.98 cm 3 /g; rice/soy 90:10 2.51 cm 3 /g, corn/soy 90:10: 2.05 cm 3 /g, whereas corn/soy 80:20: 2.12 cm 3 /g), as these batters retained more air during proofing. The staling rate was decreased by soy flour incorporation on rice (staling rate of rice breads with 10% soy diminished 52%, and with 20% of soy addition, 77%, both regarding to 100% rice breads) and corn formulation (the staling rate of corn/soy 80:20 breads was 5.9% lower than corn/soy 90:10) because of the high waterholding capacity of soy proteins and the interactions established with amylopectin that could retard the retrogradation process. Breads made with rice, corn, and soy flours showed the best quality attributes: high volume, good crumb appearance, soft texture, and low staling rate.

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Incorporation of several additives into gluten free breads: Effect on dough properties and bread quality

Sciarini

Ribotta

León

et al. 2012

Journal of Food Engineering

155

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Chemical composition and functional properties of Gleditsia triacanthos gum

et al. 2009

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Effect of hydrocolloids on gluten‐free batter properties and bread quality

Sciarini

Ribotta

León

et al. 2010

Int J of Food Sci Tech

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The objectives of this study were to assess the effect of the addition of different hydrocolloids on gluten-free batter properties and bread quality and to obtain information about the relationship between dough consistency and bread quality. Breads were made of rice, corn and soy flours and 158% water. Following hydrocolloids were added: carrageenan (C), alginate (Al), xanthan gum (XG), carboxymethylcellulose (CMC) and gelatine (Gel). Batter consistency, bread specific volume (SV), crumb analysis, crust colour, crumb hardness and staling rate were determined. Hydrocolloids increased batter consistencies: the highest value was obtained with XG, which doubled that of control batter, followed by CMC. Breads with hydrocolloid presented higher SV than control, especially with XG whose SV was 18.3% higher than that of control bread. A positive correlation was found between SV and batter consistency (r = 0.94; P < 0.05). Crumbs with Gel, XG and CMC presented higher cell average size. XG and CMC crumbs looked spongier. Breads containing hydrocolloid evidenced lighter crusts. Crumb firmness was decreased by XG and CMC addition, and staling rate was slower. Overall, XG was the hydrocolloid that most improved gluten-free bread quality. These results show that, in formulations with high water content, batter consistency is strongly associated with bread volume.

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Understanding the destructuration of starch in water–ionic liquid mixtures

et al. 2015

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A study on fibre addition to gluten free bread: its effects on bread quality and in vitro digestibility

et al. 2017

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The aim of this study was to assess the impact of fibre addition on gluten-free (GF) dough properties and bread technological quality, and on protein and starch in vitro digestibility. Soluble (Inulin, In) and insoluble fibres (oat fibre, OF, and type IV resistant starch, RSIV) were used at 5 and 10% substitution levels. Dough firmness increased when insoluble fibres were added, and decreased when In was used. Incorporation of insoluble fibres resulted into bread with a low specific volume (SBV) since firmer dough were more difficult to expand during proofing and baking. Staling rate was reduced after fibre addition, with the exception being OF 10%, as its lower SBV may have favoured molecule re-association. In general, protein and starch digestibility increased when fibres were added at 5%, and then decreased after further increasing the level. Fibres may have disrupted bread crumb structure, thus increasing digestibility, although the higher addition may have led to a physical and/or chemical impediment to digestion. Inulin has well-known physiological effects, while RS presented the most important effect on in vitro starch digestibility (GI). These results showed the possibility of adding different fibres to GF bread to decrease the GI and increase protein digestibility, while obtaining an overall high quality end-product.Keywords Gluten free bread Á Soluble and insoluble fibres Á Bread technological quality Á Protein in vitro digestibility Á In vitro glycemic index

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Partial-Baking Process on Gluten-Free Bread: Impact of Hydrocolloid Addition

Sciarini

Pérez

Lamballerie

et al. 2011

Food Bioprocess Technol

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Properties of sugar-snap cookies as influenced by lauric-based shortenings

Sciarini

Bockstaele

Nusantoro

et al. 2013

Journal of Cereal Science

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