Evaluation of physicochemical properties, antioxidant potential and baking quality of grain and flour of primitive rye (Secale cereale var. Multicaule).

The consumers interest in organic food and farmers' search for cultivars with increased usefulness for organic farming have contributed to the revival of ancient cereal species and their launch onto the food market. In view of the above, the aim of this study was to determine the physicochemical properties, antioxidant potential and baking quality of grain and flour of primitive rye (Secale cereale var. Multicaule Polish: Krzyca), and to compare these parameters with open-pollinated and hybrid cultivars of common rye. The following determinations were made: the morphological and mechanical properties of grain, milling energy and the protein, starch, ash and free phenolic content of the analyzed flours, their amylograph characteristics and antioxidant potential. It was found that primitive rye has shorter kernels, lower thousand-kernel weight and a higher contribution of redness in color compared with common rye. In primitive rye grain rupture force was determined at 68.9 N and rupture energy at 35.6 mJ. Flours made from primitive rye grain have a higher content of ash and free phenolic compounds, lower starch content and similar antioxidant potential relative to common rye flours. The results of the amylograph test revealed that primitive rye flours were characterized by high baking quality. The primitive rye flours can be alternative ingredients for bread making and provide health advantage such as higher content of phenolic compounds. However, further research is needed to analyze variations in the properties of primitive rye grain and flour resulting from changes in environmental and climatic conditions.

The effect of probiotics (Lactobacillus rhamnosus HN001, Lactobacillus paracasei LPC-37, and Lactobacillus acidophilus NCFM) on the availability of minerals from Dutch-type cheese.

The use of probiotic cultures in the production of Dutch-type cheeses did not lead to significant changes in their chemical composition but it lowered their acidity. The availability of calcium and magnesium analyzed by in vitro enzymatic hydrolysis was 19 and 35%, respectively; the availability of phosphorus was significantly higher, at >90%. The use of probiotic cultures significantly increased the availability of calcium (~2.5%), phosphorus (~6%), and magnesium (~18%). The in vitro method supports accurate determination of the effect of the Lactobacillus spp. cultures on the availability of mineral compounds ingested with Dutch-type cheese.

Influence of Bifidobacterium bifidum on release of minerals from bread with differing bran content.

Bread is considered an important source of minerals; however, the presence of fiber and phytic acid reduces bioavailability of minerals from cereal products. It is well established that activity of microorganisms in human gut increases the amount of nutrients released during digestion. The aim of this study was to determine the influence of Bifidobacterium bifidum on release of some minerals from bread using an in vitro process of enzymatic digestion. White bread and with addition of 15, 30, or 45% of bran was baked in a bakery by traditional methods, with addition of yeasts and rye leaven, from flour made of wheat, Tonacja variety. Concentrations of calcium, magnesium, manganese, zinc, copper, and iron were determined by atomic absorption spectrometry. Bread was enzymatically digested in vitro without and with the addition of Bifidobacterium bifidum KD6 (inoculum 10(6) CFU/cm(3)) and percentages of minerals released were determined. The concentration of minerals released during enzymatic digestion varied depending upon the element, quantity of bran, and presence of bacteria. Increase in bran content decreased release of elements. Bifidobacterium bifidum KD6 enhanced amounts of magnesium and zinc released from all types of bread, while manganese and copper rose only from white bread with 15% bran addition. Bacteria decreased amounts of calcium and iron released from bread. Data indicate that diets rich in beneficial bacteria (probiotics) but not balanced with minerals might increase mineral deficiency.

Calcium availability from yogurt by itself or yogurt-cereal-containing products.

Dairy products are the basic source of calcium (Ca) for many nations. The aim of this study was to determine the influence of addition of cereal products to yogurt on the ability of subsequent release of Ca present in yogurt. This was conducted in vitro by the process of enzymatic digestion simulating digestion in the human gastrointestinal tract (GIT). Calcium content was determined in commercial yogurts containing cereal and in yogurt meals with subsequent addition of cereal products or bread. Only 3 samples contained more Ca than 100 mg/100 g. Only about 45% (from 28.5 to 77.9%) of Ca was released from the samples with cereals. Innovations in yogurt production technologies actually result in less Ca being released to humans, which may be a problem for individuals with low daily Ca intake.