Based on the results from the meta-analysis, the studied technique for encapsulation of anthocyanins can be ordered as spray-drying (33.33%), freeze-drying (27.08%), gelation (20.83%), lipid-based particles (14.58%) and electrohydrodynamic processes (4.17%). In addition, carbohydrates such as maltodextrin (19.56%) and gums (15.22%) have been the most frequently used biopolymers for encapsulation of anthocyanins in the selected studies. Resveratrol is a well-known wine constituent. Its concentration can vary according to the cultivar choice and the winemaking process. Due to its phenolic structure, resveratrol could be transformed under high temperature or oxidative conditions, leading to the formation of various derivatives including oligomers. Hence, the goal of this study is to investigate the presence of these derivatives in wine. In the first stage, hemisynthesis of oligomeric stilbenes was achieved from resveratrol in ethanol by oxidative coupling using metals. Four de novo synthetized resveratrol derivatives were identified by MS and NMR spectroscopy including two new molecules, oxistilbenin F and oxistilbenin G. In the second stage, analysis of red wine after heat treatment by LC-MS confirmed the presence of some of these compounds in wine. Finally, the anti-inflammatory effects of the compounds were evaluated by studying their ability to prevent lipopolysaccharide (LPS)-induced upregulation of nitric oxide (NO) and reactive oxygen species (ROS) production in RAW 264.7 macrophage cell line. Food-derived bioactive peptides have generated an increasing interest in the field of health and well-being research. They can act either against the metabolic syndrome, participate in regulating the oxidation balance or act on the immune system. The aim of this study is to develop a workflow to generate bioactive peptides from three porcine offals namely, heart, liver, and lung and one muscle the Longissimus Dorsi, by combining in silico and in vitro approaches.  https://www.selleckchem.com/Caspase.html  Bioinformatics tools (e.i. BIOPEP and Uniprot) permitted to orientate the choice of enzymes for generating abundant bioactive peptides from the four studied porcine products. With papain and subtilisin, the main bioactivities potentially released were ACE inhibitors, DPP4 inhibitors and antioxidant peptides. An in vitro validation study using papain and subtilisin demonstrated high DPP4 inhibitors and antioxidant bioactivities for the generation of peptides. This work allowed i) the identification of all proteins that composed porcine heart, liver, lung and LD muscle that could be useful for the scientific community, ii) the development of a workflow to select most abundant proteins in a product while considering abundance factors and iii) the potential of porcine meat and offals to generate DPP4 inhibitors and antioxidant peptides. However, there is still a need in developing new tools in order to face limitations of mass spectrometry for the identification of peptides with less than six amino acids. Such a work may contribute to the development of the circular economy and the innovative creation of value-added products from animal production. Citrus peel (CP) forms around 40-50% of the total fruit mass but is generally thought to be a waste. However, it is a substantial source of naturally occurring health enhancing compounds, particularly phenolic compounds and carotenoids. Phenolic compounds in CP mainly comprise phenolic acids (primarily caffeic, p-coumaric, ferulic and sinapic acid), flavanones (generally naringin and hesperidin) and polymethoxylated flavones (notably nobiletin and tangeretin). It has also been noted that CP's contain more amounts of these compounds than corresponding edible parts of the fruits. Phenolic compounds present in CP act as antioxidants (by either donation of protons or electrons) and protect cells against free radical damage as well as help in reducing the risk of many chronic diseases. Owing to the more abundance of polyphenols in CP's, their antioxidant activity is also higher than other edible fruit parts. Therefore, peels from citrus fruits can be used as sources of functional compounds and preservatives for the development of newer food products, that are not only safe but also have health-promoting activities. The present review provides in-depth knowledge about the phenolic composition, antioxidant potential and health benefits of CP. Chlorine dioxide (ClO2) is an effective disinfectant used in the sanitization of fresh produce. Glucono delta-lactone (GDL), widely used as an acidifier during food processing, can be partially hydrolyzed to become a weak acid-gluconic acid under chemical equilibrium upon dissolution in water. This study focused on the development of a novel polylactic acid (PLA) film which incorporated with sodium chlorite (NaClO2) and GDL for ClO2(g) generation. The effects of PLA amount, NaClO2 + GDL/PLA ratio, NaClO2/GDL ratio, temperature and relative humidity on the release profiles of ClO2(g) were elucidated. The storage test indicated that film efficacy was well maintained after 4 weeks of storage under ambient conditions. The microbial inactivation results revealed that ClO2(g) generated from the films reduced populations of surface-inoculated Salmonella and Escherichia coli O157H7 from ca. 5 log CFU/tomato to undetectable level ( 0.05) compared to controls except for appearance on day 14 under 22 °C storage. The aim of this work was to evaluate the effects of gelatinized and non-gelatinized corn starches with different amounts of amylose (6.62, 28.46, and 61.10%) in the alginate matrix in relation to mechanical properties and microstructure before and after in vitro digestibility. The use of alginate together with corn starch with different amounts of amylose, in the gelatinized and non-gelatinized form, resulted in gels with different morphological characteristics. All hydrogels produced with gelatinized starches showed a more closed microstructure when compared to those produced with non-gelatinized starches due to the mixed network formed by the alginate matrix and the leached chains during gelatinization. After digestion, the microstructure of these gels became more porous, and the stress at rupture decreased in relation to the initial sample, while the modifications for the sample with non-gelatinized starches were less pronounced due to the susceptibility of gelatinized starch to enzymes. Gels with gelatinized common and high amylopectin starches presented higher amounts of released glucose and a more degraded microstructure after digestion, indicating that it is a suitable system for enteric delivery.