Influence of Whey Protein Addition and Feed Moisture Content on Chosen Physicochemical Properties of Directly Expanded Corn Extrudates

Brnčić, Mladen; Bosiljkov, Tomislav; Ukrainczyk, Marko; Tripalo, Branko; Brnčić, Suzana Rimac; Karlović, Sven; Karlović, Damir; Ježek, Damir; Topić, Dražen Vikić

doi:10.1007/s11947-009-0273-0

Cited by 27 publications

(10 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For red lentil extrudates, lightness, the reflecting diffusivity (scale from 0 to 100), significantly (p < 0.05) increased with N 2 injection, demonstrating that N 2 injection increased the lightness of red lentil extrudates. This increase in lightness in the presence of N 2 injection is in line with dry crispiness results (see Figure 4a), as extrudate structure, and cell wall thickness, potentially affect extrudate porosity (Amaya-Llano, Morales Hernández, CastañoTostado, & Martínez-Bustos, 2007;Barrett & Peleg, 1992;Brn ci c et al, 2011;Day & Swanson, 2013), and thus the extent of diffused reflection in addition to specular reflection (Seo, Cha, & Kim, 2009). It was previously reported that N 2 injection affects extrudate lightness due to the greater number of bubbles nucleated as a result of physical blowing agent-assisted extrusion (Koksel & Masatcioglu, 2018).…”

Section: Resultssupporting

confidence: 86%

Effects of different blowing agents on physical properties of extruded puffed snacks made from yellow pea and red lentil flours

Chan

Masatcioglu

Köksel

2019

J Food Process Engineering

View full text Add to dashboard Cite

Pulse flours are nutritionally dense ingredients that can increase protein and fiber contents of extruded foods to create healthier snacks. However, extruding with such ingredients can deteriorate desirable physical properties such as expansion. The use of physical blowing agents (e.g., gases) can counter this. In this study, N2 and CO2 gases were used to investigate the impact of blowing agents on physical properties of red lentil and yellow pea extrudates. Microscopy imaging of extrudate cross‐sections showed increased number of cells brought about by gas injection. Some textural parameters, such as crunchiness, were positively affected by gas use regardless of pulse type, whereas others, such as bowl life, were a function of both pulse and gas type. The greatest changes in overall extrudate color and lightness were observed for red lentil with N2 gas injection. The use of physical blowing agents during food extrusion presents great potential in manipulating extrudate expansion, microstructure, texture, and color, with N2 gas well suited for red lentil extrudates in dry form and CO2 gas well suited for yellow pea extrudates in wet form. Practical applications Physical blowing agent‐assisted extrusion is a novel technology for the food industry's ability to control aerated food structure and texture. As such, the concentration and solubility of blowing agents may be manipulated to enhance the physical properties of high protein‐ and high fiber‐aerated foods, including ready‐to‐eat snacks, breakfast cereals, and gluten‐free products. The use of physical blowing agent‐assisted extrusion has tremendous potential for the development of nutritionally dense, plant‐based aerated foods with consumer appeal. The results obtained are useful for the food industry because incorporation of such food products into our daily diets, through processing them using innovative technologies, not only adds value to plants (e.g., pulses and cereals) but also has potential health, economic, and ecological benefits for the society.

show abstract

Section: Resultssupporting

confidence: 86%

Effects of different blowing agents on physical properties of extruded puffed snacks made from yellow pea and red lentil flours

Chan

Masatcioglu

Köksel

2019

J Food Process Engineering

View full text Add to dashboard Cite

show abstract

“…WSI had a negative correlation with WAI (r ¼ À0.634), which has also been observed by many other authors. 31,32 ER and WSI had a positive correlation (r ¼ 0.667). The insoluble aggregates formed by the cross-linking reactions between the protein and starch molecules disrupted the continuity of the starch matrix and led to lower ER.…”

Section: Water Absorption and Water Solubility Indexmentioning

confidence: 97%

Correlations between the physical properties and chemical bonds of extruded corn starch enriched with whey protein concentrate

et al. 2017

View full text Add to dashboard Cite

show abstract

“…In order to produce snacks with high protein content whey proteins have been previously used as additives in extruded snacks (Agbisit 2007;Allen et al 2007;Brnčić et al 2011;Cheng et al 2007;Kirjoranta et al 2012;Matthey and Hanna 1997;Onwulata et al 1998Onwulata et al , 2001aOnwulata and Konstance 2006;Taylor et al 2006). However, there are no published studies, in which whey proteins have been used together with BSG and whole grain barley flour.…”

Section: Introductionmentioning

confidence: 99%

Effects of process parameters on the properties of barley containing snacks enriched with brewer’s spent grain

2015

View full text Add to dashboard Cite

Brewer's spent grain (BSG), a by-product of malting of barley in the production of malt extract, was used as an ingredient in extruded barley-based snacks in order to improve the nutritional value of the snacks and widen the applications of this by-product in food sector. The effects of the extrusion parameters on the selected properties of the snacks were studied. Snacks with different ingredients including whole grain barley flour, BSG, whey protein isolate (WPI), barley starch and waxy corn starch were produced in 5 separate trials using a co-rotating twin-screw extruder. Extrusion parameters were water content of the mass (17-23 %), screw speed (200-500 rpm) and temperature of the last section and die (110-150°C). Expansion, hardness and water content of the snacks were determined. Snacks containing barley flour and BSG (10 % of solids) had small expansion and high hardness. Addition of WPI (20 % of solids) increased expansion only slightly. Snacks with high expansion and small hardness were obtained when part of the barley flour was replaced with starch (barley or waxy corn). Yet, the highest expansion and the smallest hardness were achieved when barley flour was used with barley starch and WPI without BSG. Furthermore, expansion increased by increasing screw speed and decreasing water content of the mass in most of the trials. This study showed that BSG is a suitable material for extruded snacks rich in dietary fiber. Physical properties of the snacks could be improved by using barley or waxy corn starch and WPI.

show abstract

Influence of Whey Protein Addition and Feed Moisture Content on Chosen Physicochemical Properties of Directly Expanded Corn Extrudates

Cited by 27 publications

References 22 publications

Effects of different blowing agents on physical properties of extruded puffed snacks made from yellow pea and red lentil flours

Effects of different blowing agents on physical properties of extruded puffed snacks made from yellow pea and red lentil flours

Correlations between the physical properties and chemical bonds of extruded corn starch enriched with whey protein concentrate

Effects of process parameters on the properties of barley containing snacks enriched with brewer’s spent grain

Contact Info

Product

Resources

About