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High-Amylose Resistant Starch as a Functional Ingredient in Breads: a Technological and Microstructural Approach View Full Text

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Article Info

DATE

2018-12

AUTHORS

Carlos Gabriel Arp, María Jimena Correa, Cristina Ferrero

ABSTRACT

Resistant starches (RS) are important functional fibers with high potential for the development of healthy foods. The technological, nutritional, and commercial possibilities of introducing type 2 RS in white breads were studied. Four levels of maize RS (HM) as wheat flour replacement were evaluated: 0%, 10%, 20%, and 30% (control, HM10, HM20, and HM30, respectively). Thermal transitions experiments were assessed on doughs prior to breadmaking. The bread quality was studied by specific volume, color of crust and crumb, porosity, and texture of the crumb. The microstructure of the crumb was analyzed by environmental scanning electron microscopy (ESEM). Proximate composition and in vitro starch digestibility were performed to characterize the nutritional profile of breads and estimate the glycemic index (GI). Consumer acceptability of breads was also evaluated. Breads with HM showed great performance up to 20% replacement in the specific volume, the crumb porosity, and the texture. Replacement up to 30% caused major damage to those parameters. Differential scanning calorimetry runs demonstrated that HM starch did not gelatinize under the baking conditions, as confirmed by ESEM. The presence of increasing levels of native starch is thought to have the greatest influence on reducing the crust browning, increasing the crumblier texture and decreasing starch digestibility. With respect to the control, a high and progressive reduction in the estimated GI and an outstanding increase of fiber with increasing levels of HM were found. The sensory evaluation of HM20 bread showed that this level of substitution has great consumer acceptance, giving it the chance to become a healthy substitute of white bread. More... »

PAGES

2182-2193

References to SciGraph publications

  • 2009-06. Evaluation of four types of resistant starch in muffins. II. Effects in texture, colour and consumer response in EUROPEAN FOOD RESEARCH AND TECHNOLOGY
  • 2016-01. Wheat bread enriched with organic calcium salts and inulin. A bread quality study in JOURNAL OF FOOD SCIENCE AND TECHNOLOGY
  • 2007. Bread – the Product in TECHNOLOGY OF BREADMAKING
  • 2002-11. Glycemic index in chronic disease: a review in EUROPEAN JOURNAL OF CLINICAL NUTRITION
  • 1997-02. Texture properties of formulated wheat doughs Relationships with dough and bread technological quality in EUR FOOD RES TECHNOL
  • 2017-03. Hydrothermal Changes of Starch Monitored by Combined NMR and DSC Methods in FOOD AND BIOPROCESS TECHNOLOGY
  • 2018-06. Rheological and Microstructural Characterization of Wheat Dough Formulated with High Levels of Resistant Starch in FOOD AND BIOPROCESS TECHNOLOGY

    • Journal

    TITLE

    Food and Bioprocess Technology

    ISSUE

    12

    VOLUME

    11

    Subjects

  • FOR: Food Sciences
  • FOR: Engineering

    • Author Affiliations

  • Centro de Investigación y Desarrollo en Criotecnología de Alimentos

    • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s11947-018-2168-4

    DOI

    http://dx.doi.org/10.1007/s11947-018-2168-4

    DIMENSIONS

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    36 schema:description Resistant starches (RS) are important functional fibers with high potential for the development of healthy foods. The technological, nutritional, and commercial possibilities of introducing type 2 RS in white breads were studied. Four levels of maize RS (HM) as wheat flour replacement were evaluated: 0%, 10%, 20%, and 30% (control, HM10, HM20, and HM30, respectively). Thermal transitions experiments were assessed on doughs prior to breadmaking. The bread quality was studied by specific volume, color of crust and crumb, porosity, and texture of the crumb. The microstructure of the crumb was analyzed by environmental scanning electron microscopy (ESEM). Proximate composition and in vitro starch digestibility were performed to characterize the nutritional profile of breads and estimate the glycemic index (GI). Consumer acceptability of breads was also evaluated. Breads with HM showed great performance up to 20% replacement in the specific volume, the crumb porosity, and the texture. Replacement up to 30% caused major damage to those parameters. Differential scanning calorimetry runs demonstrated that HM starch did not gelatinize under the baking conditions, as confirmed by ESEM. The presence of increasing levels of native starch is thought to have the greatest influence on reducing the crust browning, increasing the crumblier texture and decreasing starch digestibility. With respect to the control, a high and progressive reduction in the estimated GI and an outstanding increase of fiber with increasing levels of HM were found. The sensory evaluation of HM20 bread showed that this level of substitution has great consumer acceptance, giving it the chance to become a healthy substitute of white bread.
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