Optimization of gluten-free muffin formulation with agavin-type fructans as fat and sucrose replacer using response surface methodology

Optimization of gluten-free muffin formulation with agavin-type fructans as fat and sucrose replacer using response surface methodology

•Functional gluten-free muffins were developed using agavin-type fructans.•Agavin-type fructans were used as sucrose and fat replacer.•Functional muffins reached 28% and 22% of sucrose and fat replacement, respectively.•Agavin-type fructans resulted in muffins of lower height and a darker crumb.•Suc...

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Bibliographic Details
Published in:Future foods : a dedicated journal for sustainability in food science Vol. 5; p. 100112
Main Authors: Nieto-Mazzocco, Elizabeth, Saldaña-Robles, Adriana, Franco-Robles, Elena, Mireles-Arriaga, Ana Isabel, Mares-Mares, Everardo, Ozuna, César
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2022
Elsevier
Subjects:
Agave spp
Functional ingredients
Physical and sensorial properties
Prebiotics
Functional ingredients
Physical and sensorial properties
Agave spp
Prebiotics
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Summary:•Functional gluten-free muffins were developed using agavin-type fructans.•Agavin-type fructans were used as sucrose and fat replacer.•Functional muffins reached 28% and 22% of sucrose and fat replacement, respectively.•Agavin-type fructans resulted in muffins of lower height and a darker crumb.•Sucrose and fat replacement did not affect consumer acceptability of the muffins. Reducing the content of sucrose and fat in gluten-free products by means of replacers, such as agavin-type fructans (ATF), represents a challenge for the bakery industry, which is still developing products to satisfy the needs of celiac consumers. The aim of this work was to optimize the use of ATF from Agave tequilana Weber var. azul as fat and sucrose replacer in a gluten-free muffin formulation. Using response surface methodology, we obtained two optimal values, one for sucrose replacement (SR) and another one for fat replacement (FR) by ATF. These yielded 28% SR and 22% FR, respectively. SR and FR muffins showed significantly lower height, darker crumb color, slightly yellow crust and crumb, and larger cell area than control. Additionally, FR muffins showed darker crust color while SR muffins showed brighter crust as well as less hardness and springiness. However, this difference was not noticed by the sensory panel. On the other hand, the chemical composition revealed a carbohydrate and fat reduction by 11.5% and 2% in SR and FR product, respectively, in comparison to the control. Therefore, ATF have proven to be a potential functional ingredient to be employed in the development of low-fat and low-sucrose gluten-free bakery products. [Display omitted]
ISSN:2666-8335
2666-8335
DOI:10.1016/j.fufo.2021.100112