Monitoring the Evolution of Major Chemical Compound in Dairy Products During Shelf-Life by FTIR

Fourier-transform infrared (FTIR) spectroscopy is considered to be a comprehensive and sensitive method to characterize the chemical composition and for detection of molecular changes in different samples. In this study, FTIRspectroscopy  was employed as an rapid and low-cost technique in order to characterize the FTIR spectra and identify appropriate spectral regions for dairy product fermented by a lactic culture consisting by species of Lactococcus lactis and Leuconostoc mesenteroides. A second objective was to monitore the key chemical compounds (lactose, lactic acid, flavors) during fermentation and refrigerated storage (1-21 days, at 4-6°C). By FT-IR fingerprint during fermentation we identified changes of the spectra pattern with specific increasing or decreasing peaks for lactose, lactic acid, esters, aromatic compounds, aminoacids, fatty acids. Also the technique was able to identify chemical compounds involved in the microbial activity such as phosphates and phosphorylated carbohydrates during fermentation and dairy product shelf-life. All the major chemical compounds recorded significant increaments during fermentation and refrigerated storage comparing with the raw milk

Physicochemical and Sensory Characteristics of Pretzel with Wheat Bran

It is well supported that a significant intake of dietary fibre reduces the risk of several chronic diseases. The development of staple foods enriched with fibre is an important contribution to a broader supply of food products with health beneficial effect. In this context, partial substitution of wheat flour with wheat bran at levels of 3%, 5% and 10% was carried out to investigate physicochemical (moisture, ash, fiber and acidity)  and sensory properties of pretzel.  Sensory analyses included evaluation of overall appearance, colour, taste, aroma, consistence (9 point hedonic scale). The present study indicated that 10% added of wheat bran were accepted by consumers and have shown the potential of developing fibre-rich pretzels in order to increase the dietary fibre intake.It is well supported that a significant intake of dietary fibre reduces the risk of several chronic diseases. The development of staple foods enriched with fibre is an important contribution to a broader supply of food products with health beneficial effect. In this context, partial substitution of wheat flour with wheat bran at levels of 3%, 5% and 10% was carried out to investigate physicochemical (moisture, ash, fiber and acidity)  and sensory properties of pretzel.  Sensory analyses included evaluation of overall appearance, colour, taste, aroma, consistence (9 point hedonic scale). The present study indicated that 10% added of wheat bran were accepted by consumers and have shown the potential of developing fibre-rich pretzels in order to increase the dietary fibre intak

Physico-Chemical and Sensory Properties of Wheat Bread Supplemented With Mustard Flour

The aim of this investigation was to incorporate mustard flour into bread in order to improve its quality. For this purpose, wheat flour 650 type for bread making was replaced with mustard seed flour at the level of 5, 7 and 10%. Bread quality through physico-chemical and sensory characteristics was analyzed and compared to those of bread without mustard flour. The protein content of mustard flour bread increased with 5.03% as a result of mustard flour incorporation, coupled with an increase in ash content. Sensory evaluation results revealed that the sample containing 7% mustard flour scored highest in most of the attributes including overall acceptability. The study reveals that incorporation of 7% mustard flour gave desirable results in terms of phisyco-chemical and sensory caracteristics of mustard flour fortified bread

Preliminary Assessment of the Nutritional Quality of two Types of Lentils (Lens Culinaris) by Near Infrared Reflectance Spectroscopy Technology (Nirs)

The aim of this study was to evaluate and compare the nutritive value of two varieties of lentils (Lens culinaris), namely green and red varieties. For this purpose the chemical components: crude protein, starch, ash, sugars (monosaccharides and oligosaccharides), crude fat, total fibers and dry matter of two lentils varieties (green and red) were determined by near infrared reflectance spectroscopy technology (NIRS). Results show that green lentils had higher contents in ash (minerals), crude protein and total fibers, while the red lentils had higher contents in crude fat and total carbohydrates. The metabolizable energy (MJ/kg) of the red lentils was slightly higher than green lentils. In conclusion both type of lentils (green and red) revealed good nutritional quality with slight differences