Optimization of an extrusion process for the development of a fiber‐rich, ready‐to‐eat snack from pineapple by‐products and sweet whey protein based on corn starch

Rivera‐Mirón, María Isabel; Torruco‐Uco, Juan G.; Carmona‐García, Roselis; Rodríguez‐Miranda, Jesús

doi:10.1111/jfpe.13532

Cited by 10 publications

(27 citation statements)

References 24 publications

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“…Typically, the increase in the extrusion temperature favors the denaturation of proteins (Melo et al., 2011); however, in this investigation, it had no effect ( p < .05), which was probably due to the absence of water (sufficient quantity) during the process, and thus not modifying the protein content present (Arribas et al., 2017; Rivera‐Mirón et al., 2020). Singh et al.…”

Section: Resultscontrasting

confidence: 52%

“…The nixtamalization of maize is an alkaline thermal process that improves the physicochemical, functional, and nutritional properties of corn and increases the quality of the protein, the calcium content, and the bioavailability of niacin in corn grains (Estrada‐Girón et al., 2014). Maize‐based snacks have good physical (expansion and texture), functional, and sensory characteristics that vary based on the processing conditions, such as the extrusion temperature, moisture, and screw speed (Rivera‐Mirón et al., 2020; Rodríguez‐Miranda et al., 2011; Téllez‐Morales et al., 2020). Therefore, the purpose of this research was to analyze the impact of the extrusion process on the chemical composition, color parameters, and acceptability of protein‐rich, ready‐to‐eat snacks made in a single‐screw extruder with blends of nixtamalized maize ( Zea mays L.) flour and grasshopper ( Sphenarium purpurascens Ch.)…”

Section: Introductionmentioning

confidence: 99%

“…not modifying the protein content present(Arribas et al, 2017;Rivera-Mirón et al, 2020) Singh et al (2007). note that the digestibility of protein increases after the extrusion process as a result of the structural modification of the proteins and the inactivation of anti-nutritional factors caused by the denaturation of the proteins.…”

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confidence: 99%

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Effects of formulation and process conditions on chemical composition, color parameters, and acceptability of extruded insect‐rich snack

Ramírez‐Rivera

Hernández‐Santos

Juárez-Barrientos³

et al. 2021

J Food Process Preserv

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Entomophagy is practised in countries in Africa, Asia, Latin America, and Australia; however, in other countries, it is very rare or is considered taboo. The nutritional content of insects is very high compared to that of other food sources. The high protein content (43.9-77.1 g/100 g) and digestibility of edible insects and their high levels of unsaturated fatty acids and trace elements (copper, iron, magnesium, manganese, biotin, and pantothenic acid) (Rodríguez-Miranda et al., 2019;Rumpold & Schlüter, 2013;Soon-Kyung et al., 2017) make insects a good quality protein source. Orthoptera are some of the most consumed insects, and grasshoppers are a part of traditional diets in some countries (Melo et al., 2011) and the most widely distributed insect in the world; therefore, grasshoppers can serve as an

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Section: Resultscontrasting

confidence: 52%

Section: Introductionmentioning

confidence: 99%

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Effects of formulation and process conditions on chemical composition, color parameters, and acceptability of extruded insect‐rich snack

Ramírez‐Rivera

Hernández‐Santos

Juárez-Barrientos³

et al. 2021

J Food Process Preserv

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“…In addition, it has been used to produce a wide variety of food products such as snacks, ready‐to‐eat cereals, textured vegetable protein, confectionery, and animal feed. The whey proteins play a fundamental role in the food industry, due to their contribution to nutrition and functionality; incorporating them into extruded products can provide a nutritionally sound and economical approach to fortification, enhancing texture, flavor, and color (Allen et al., 2007; Amaya‐Llano et al., 2007; Quevedo et al., 2020; Rivera‐Mirón et al., 2020). Despite the disadvantages associated with adding components such as whey protein to extrudates, the nutritional value increases, and this may provide other benefits for food products such as snacks; in addition, the use of starches can improve the textural qualities of extrudates by increasing the number of bubbles, which can act as nucleation sites for the flash in the die (Allen et al., 2007; Grasso, 2020; Quevedo et al., 2020).…”

Section: Introductionmentioning

confidence: 99%

“…could increase the degree of filling of the cylinder, which promoted the flow of the melt with a higher mass flow rate during extrusion, leading to a lower SME, It is also directly related to the internal friction of the material during extrusion(Pensamiento-Niño et al, 2018;Rivera-Mirón et al, 2020;Wu et al, 2019;Yu et al, 2017;Zhang et al, 2018) Dalbhagat et al (2019). explained that the conversion of starch during extrusion depends on the degree of mechanical energy provided to the feed material that improves the breaking of intermolecular hydrogen bonds and promotes greater gelatinization of the starch and a greater expansion of the product occurs in high SME values.…”

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confidence: 99%

Effect of the concentrations of corn starch and whey protein isolate on the processing parameters and the physicochemical characteristics of the extrudates

Téllez‐Morales

Gómez‐Aldapa

Herman‐Lara

et al. 2021

J Food Process Preserv

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Extrusion cooking is a commonly used technology in food processing due to low operating costs, high efficiency, versatility, and unique characteristics of final products (Grasso, 2020). For its production, the extrusion process is used, in which the raw material is treated at high temperatures, for short retention times in the individual sections of the extruder (Rivera-Mirón et al., 2020). Extrusion cooking is a multistep mechanical/thermal operation that has enabled a large number of food preparations. In addition to the normal benefits of thermal processing, extrusion offers the opportunity to modify the techno-functional properties of ingredients (Wani & Kumar, 2016a, 2016b. Under high pressures, the raw material undergoes various operations, such as mixing, pressing of the input material, heating, and shearing (Félix-Medina et al., 2020;Téllez-Morales et al., 2020).In addition, it has been used to produce a wide variety of food products such as snacks, ready-to-eat cereals, textured vegetable protein, confectionery, and animal feed. The whey proteins play a fundamental role in the food industry, due to their contribution to nutrition and functionality; incorporating them into extruded products can

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Effect in Physical, Thermo‐Mechanical Properties, and In Vitro Starch Digestibility of Extruded and Microwave‐Expanded Snacks—Mixture of Blue Corn, Black Bean, and Chard: An Optimization Study

Neder‐Suárez¹,

Lardizábal-Gutiérrez

Meléndez‐Pizarro³

et al. 2022

Starch Stärke

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A mixture of blue corn, black bean, and chard with a moisture content (MC) of 22.3–35.7% is extruded at different extrusion temperatures (ET) (102—142 °C) using screw speeds (SP) of 96–172 rpm, and the extruded mixtures are subsequently expanded using microwave radiation to produce third‐generation (3G) snacks. The degree of starch gelatinization (DG); in vitro starch digestibility (SD); specific mechanical energy (SME); physical properties: radial expansion (RE), flexural modulus (Ef), and bulk density (BD); and rheological properties: storage modulus (G′) and loss modulus (G″) are evaluated and optimized. In addition, X‐ray and microstructure analyses are studied to correlate the chemical and structural changes. The SP and MC affect most variables in the unexpanded snack (UETS) and microwave‐expanded snacks (MWES). Increased MC results in UETS with low SD, DG, rheological properties, and mechanical resistance. An increase in SP at low MC results in MWES with high RE, low BD, and Ef while an increase in MC lowers SD. Micrographs and X‐ray diffraction spectra reveals that the extrusion results in a V‐type starch crystalline structure. The optimal conditions (24% MC, 133 rpm, and 122 °C) result in good expansion and moderate SD, DG, and SME products.

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Optimization of an extrusion process for the development of a fiber‐rich, ready‐to‐eat snack from pineapple by‐products and sweet whey protein based on corn starch

Cited by 10 publications

References 24 publications

Effects of formulation and process conditions on chemical composition, color parameters, and acceptability of extruded insect‐rich snack

Effects of formulation and process conditions on chemical composition, color parameters, and acceptability of extruded insect‐rich snack

Effect of the concentrations of corn starch and whey protein isolate on the processing parameters and the physicochemical characteristics of the extrudates

Effect in Physical, Thermo‐Mechanical Properties, and In Vitro Starch Digestibility of Extruded and Microwave‐Expanded Snacks—Mixture of Blue Corn, Black Bean, and Chard: An Optimization Study

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