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Source Apportionment of Environmental Burning Resources using Excitation Emission Matrix Fluorescence Spectroscopy along with Equipment Learning.
Intestinal metabolism revealed that hydroxycinnamates were preferentially hydrolyzed and subsequently methylated, whereas hydrolysis of flavanols could not be confirmed, being mostly conjugated to sulfate, methyl- and methyl-sulfate derivatives. It is noteworthy that methyl derivatives of procyanidin-B2 were detected inside Caco-2 cells, confirming its absorption. In addition, culture medium influenced phenol isomerization to a higher extent than cells. In conclusion, hydroxycinnamates were better absorbed than flavanols although their bioavailability was limited in this intestinal cell model. The development of functional foods containing probiotics has experienced a great boom in the last years, reflected by the increasing number of novel products available at the market, as well as by the well-documented extensive research, going beyond the traditional fermented dairy foods. However, to safe arrive to their target, the gut, microorganisms contained in food products have to overcome different barriers, both technological and physiological. Food processing might cause different types of damages on beneficial bacteria, which finally lead to a decrease of viability. In addition, once ingested, and before arriving to the gut, microorganisms are exposed to other food constituents, low pH and digestive juices, all of them constituting detrimental environments that can decrease their viability. learn more For this reason, this review offers an updated state of the art on the microorganisms' response to the factors affecting their survival during drying techniques, storage and rehydration. Current strategies to overcome detrimental processing effects on bacterial viability are also reviewed, as well as the effect of food matrices on bacterial protection during food manufacturing and storage. The effect of probiotic microorganisms on the gut, and in particular on the intestinal microbiota is an issue of increasing interest in the last decades, and thus, special emphasis was put it on. Excessive sodium (Na) consumption can lead to serious health problems such as hypertension, and cardiovascular and renal diseases. Therefore, the food industry in worldwide has been trying to reduce sodium levels in processed products. The aim of this study was to validate a method and quantify sodium in processed and packaged foods and to estimate its ingestion in the consumption. In the first step, for choose the adequate analytical procedure different samples preparations (mineralization) were evaluated as wet and dry ash mineralization, as well as CsCl concentration to suppress chemical interferences for apply FAAS technique. The best performance conditions were applied for the analytical method validation mineralization by wet digestion and adding 0.1% CsCl, which characterized the method as simple and low cost. The method was validated and was applied in 12 different processed food matrices (5 brands, 3 batches), including products of vegetable and animal origins, different majority components and interferences for Na evaluation. The results showed that sausage, hamburger, ham, bread, tomato sauce, ketchup, mustard, mayonnaise and mashed potato were classified as high-sodium foods, with mean values above 460 mg 100 g-1. It was verified that 68% of the samples were regarded as having high sodium content and the maximum value found was 2851 mg 100 g-1 for a sample of mashed potatoes. In addition, it was found that 38% of the samples presented differences in Na concentration when compared to content declared on the label. It is also observed that is possible different sodium ingestion according the combinations of processed and packaged foods in the same meal and, in this case, the sodium consumption is above than the daily value as recommended by the regulatory agencies. It was concluded that the majority of processed and packaged foods presented high sodium concentration even with efforts of the food industry to reduce the levels of this mineral and its remains an important public health problem. Chilean currants (Ribes magellanicum and Ribes punctatum) are wild polyphenol-rich berries with interesting bioactivities in several in vitro models. The aim of this study was to investigate the effects of the pre-digested PEE (polyphenol-enriched extract) in a simulated colon model. Fruits were extracted, submitted to simulated gastrointestinal digestion and further colonic fermentation with feces from healthy human donors. Samples were taken at 1, 4, 8 and 24 h of incubation, monitoring pH, ammonia, branched-chain fatty acids (BCFA), short-chain fatty acids (SCFA) and bacterial growth. FOS (fructooligosaccharides) and fecal slurry without treatments were positive and negative control, respectively. Both Ribes species reduced (p less then 0.05) both BCFA and SCFA at 24 h. R. punctatum promoted the growth (p less then 0.05) of beneficial bacteria such as Clostridium cluster XIVa, and Faecalibacterium prausnitzii; while a trend to increase Akkermansia muciniphila was observed. R. magellanicum increased (p less then 0.05) Clostridium cluster XIVa population. Escherichia coli, Lactobacillus spp. and Bifidobacterium spp. remained unaffected. Our results suggest that polyphenols from R. punctatum and R. magellanicum may modulate both bacterial metabolism and some selected gut beneficial bacteria under simulated conditions. Therefore, Chilean currants might be useful as supplements to maintain a healthy colon; however, further in vivo studies are needed to confirm their effect and their mechanisms. In Italy a particularly valuable chestnut is "Marrone di Roccadaspide", a protected geographical indication (PGI) product, deriving from a Castanea sativa cultivar, typical of Salerno province in Campania region. As chestnut industrial processes yield a large amount of shell by-products, in this study the possibility to retrain this waste food as potential source of bioactives was investigated. The ability of "Marrone di Roccadaspide" shell MeOH extract to modulate the pro-inflammatory transcriptional factor NF-κB after LPS stimulation, along with the antioxidant activity by a cell-based in vitro test, were evaluated. To correlate the NF-κB inhibition (67.67% at 5 μg/mL) and the strong antioxidant activity to the chemical composition, an analytical approach based on LC-ESI/LTQOrbitrap/MS/MSn along with NMR characterization of isolated compounds was developed. The identification of hydrolysable and condensed tannins, along with flavonoids, phenol glucosides, ellagic acid derivatives, and triterpenoids was accomplished.
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