Effect of Added Brewer’s Spent Grain on the Baking Value of Flour and the Quality of Wheat Bread

This study was undertaken to determine the effect of the partial replacement of wheat flour (WF) with barley brewer’s spent grain (BBSG) and barley-buckwheat brewer’s spent grain (BBSG + B) on dough quality and bread properties, including nutritional value. The contents of brewer’s spent grain (BSG) in the blend with wheat flour were 0, 10, and 20%. The quality of the flour blends was assessed with intermediate methods and based on laboratory baking. Analyses were also carried out to determine contents of basic nutrients and energy value. The replacement of part of wheat flour with BBSG and BBSG + B diminished gluten yield and deteriorated its quality (a decreased sedimentation value and stability, and increased dough softening). Changes were also observed in the starch-enzymatic system, resulting in a decreased falling number and maximum paste viscosity. Breads containing both BSG types featured higher yield and lower loaf volume. They had also higher contents of protein, dietary fibre, fat, and ash as well as a lower energy value compared to the wheat bread. Considering the organoleptic traits of breads, the 10% replacement of wheat flour with BSG is recommended in the blend. The BBSG + B was found to elicit more beneficial effects on bread properties than BBSG

Unlocking the Secrets of Special Micronized Wholemeal Flours: A Comprehensive Characterization Study

This study aimed to characterize special micronized wholemeal flours with a fine granulation size of less than 160 μm. The flours under investigation included wheat, rye, spelt, barley, buckwheat, sorghum, and teff. Various parameters were investigated to characterize the flours, including moisture, energy value, fat, carbohydrates, sugars, total protein, ash, and total dietary fiber (TDF). The falling number of the flours was assessed using the Hagberg–Perten method. Furthermore, the pasting properties of tested flours were analyzed using an amylograph, and a Rapid Visco Analyser (RVA). The water absorption of the wholemeal flours was examined using a farinograph. Additionally, the technological quality of the tested material was assessed based on the water (WRC) and sodium carbonate Solvent Retention Capacity (SRC) profile. Among the analyzed micronized flours, special wheat flour (WWF) had the highest nutritional value, and rye flour (WRF) was characterized by the lowest nutrient content and the highest amylolytic activity. The lowest levels of water absorption were found in special teff flour (WTF). The lowest TDF content and amylolytic activity were found in special buckwheat flour (WBWF)

Effect of Inoculated Lactic Acid Fermentation on the Fermentable Saccharides and Polyols, Polyphenols and Antioxidant Activity Changes in Wheat Sourdough

Inoculation of sourdough allows the fermentation medium to be dominated by desired microorganisms, which enables determining the kinetics of the conversion of chemical compounds by individual microorganisms. This knowledge may allow the design of functional food products with health features dedicated to consumers with special needs. The aim of the study was to assess the dynamics of transformations of fermentable oligosaccharide, disaccharide, monosaccharide and polyol (FODMAP) compounds from wheat flour as well as their antioxidant activity during inoculated and spontaneous sourdough fermentation. The FODMAP content in grain products was determined by the fructan content with negligible amounts of sugars and polyols. To produce a low-FODMAP cereal product, the fermentation time is essential. The 72 h fermentation time of L. plantarum-inoculated sourdough reduced the FODMAP content by 91%. The sourdough fermentation time of at least 72 h also positively influenced the content of polyphenols and antioxidant activity, regardless of the type of fermentation. The inoculation of both L. plantarum and L. casei contributed to a similar degree to the reduction in FODMAP in sourdough compared to spontaneous fermentation