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Biogenic amines have been known for some time. These compounds are found in varying concentrations in a wide range of foods (fish, cheese, meat, wine, beer, vegetables, etc.) and their formations are influenced by different factors associated to those foods (composition, additives, ingredients, storage, microorganism, packaging, handing, conservation, etc.). The intake of foods containing high concentrations of biogenic amines can present a health hazard. Additionally, they have been used to establish indexes in various foods in order to signal the degree of freshness and/or deterioration of food. Nowadays, there has been an increase in the number of food poisoning episodes in consumers associated with the presence of these biogenic amines, mainly associated with histamines. Food safety is one of the main concerns of the consumer and safety agencies of different countries (EFSA, FDA, FSCJ, etc.), which have, as one of their main objectives, to control these biogenic amines, principally histamine, to assure a high level of food safety.Therefore, it is necessary to deepen our understanding of the formation, monitoring and reduction of biogenic amines during the development, processing and storage of food, even the effect of biogenic amines in consumers after digestion of foods with different levels of these compounds.With this aim, we are preparing a Special Issue on the topic of ""Biogenic Amines in Food Safety"", and we invite researchers to contribute original and unpublished research articles and reviews articles that involve studies of biogenic amines in food, which can provide an update to our knowledge of these compounds and their impacts on food quality and food safety.
catecholamines --- radish kimchi --- Chonggak kimchi --- cheese --- biogenic amines --- herby cheese --- Kkakdugi --- serotonin --- screening method --- storage conditions --- putrescine --- quality control --- decarboxylase enzymes --- food products --- iodine feed --- intervention methods --- bowel diseases --- tyramine --- decarboxylase activity --- plant-origin foods --- nutrition --- high hydrostatic pressure --- Lactobacillus brevis --- physico-chemical composition --- artisanal cheese --- free amino acid --- histamine --- gastrointestinal tract --- culinary process --- meat species --- food quality --- Bacillus spp. --- inflammation --- fermented soybean foods --- quality index --- polyamines --- HPLC --- public health --- cadaverine --- gastric cancer --- kimchi --- colon cancer --- quality indexes --- control --- lactic acid bacteria --- legislation–regulation --- food safety --- raw milk cheese --- starter cultures --- analytical determination --- histamine intolerance --- low-histamine diet --- starter culture
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Breastfeeding is the preferred method of feeding in early life. It is also one of the most cost-effective childhood survival interventions. Breastfeeding practices are important for preventing child mortality and morbidity, as well as ensuring the optimal growth, health, and development of infants. The public health benefits of breastfeeding have been well documented in the medical literature, and include the following: associations with decreased risk for early-life diseases such as otitis media, respiratory tract infection, diarrhoea, and early childhood obesity (to name but a few). This Special Issue book includes a collection of studies on the use of novel methods to improve breastfeeding rates, and research exploring the short- and long-term benefits of breastfeeding for both the infant and mother, including technology-based approaches.
practice --- milk bank --- galactagogues --- infant --- twins --- children --- perinatal --- circadian rhythm --- lactoferrin --- Aboriginal --- lipidome --- infant crying --- AA --- risk factors --- infants --- EPIC --- pregnancy --- Africa --- ECOWAS --- involution --- cortisol --- educational status --- low milk supply --- lactating mammary gland --- milk flow --- DHA --- EWAS --- breast feeding --- pregnancy outcomes --- NTR --- premature birth --- omega-3 --- DNA methylation --- LC-PUFA --- omega-6 --- culturally and linguistically diverse (CALD) --- vitamin A --- human milk carbohydrates --- childhood --- milk intake --- neonate --- fenugreek --- United Arab Emirates --- prognosis --- sensitivity and specificity --- weaning --- breastfeeding frequency --- birth cohort --- maternal behavior --- temperament --- multiple pregnancy --- mortality --- breastfeeding --- Australia --- hospitalizations --- cortisone --- maternal age --- oligosaccharides --- milk composition --- initiation of breastfeeding --- preterm infant --- antenatal care --- infant mortality --- body composition --- growth trajectory --- maternal protein restriction --- self-efficacy --- infections --- gestational age --- exclusive breastfeeding --- daily intake --- ALSPAC --- maternal stress --- retinoic acid --- breast milk metabolome --- lactation --- antibiotic use --- free amino acid --- maternal anxiety --- early life nutrition --- child nutrition --- parity --- human milk --- lactose --- litter size --- caesarean section --- skin-to-skin --- prolonged lactation --- vitamin A deficiency --- fatty acids --- plasma metabolic parameters --- breast milk --- growth --- glycome --- caries
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Over the last few years, the subject of food authenticity and food fraud has received increasing attention from consumers and other stakeholders, such as government agencies and policymakers, control labs, producers, industry, and the research community. Among the different approaches aiming to identify, tackle, and/or deter fraudulent practices in the agri-food sector, the development of new, fast, and accurate methodologies to evaluate food authenticity is of major importance. This book, entitled “Target and Non-Target Approaches for Food Authenticity and Traceability”, gathers original research and review papers focusing on the development and application of both targeted and non-targeted methodologies applied to verify food authenticity and traceability. The contributions regard different foods, among which some are frequently considered as the most prone to adulteration, such as olive oil, honey, meat, and fish. This book is intended for readers aiming to enrich their knowledge through reading contemporary and multidisciplinary papers on the topic of food authentication.
Technology: general issues --- COIBar–RFLP (cytochrome oxidase I barcode–restriction fragment length polymorphism) --- seafood --- fraud --- DNA barcoding --- food authenticity --- food adulteration --- food fraud --- donkey --- cytochrome b --- real-time PCR --- meat products --- honey --- regional origin --- chemometric analysis --- mineral content --- Montenegro --- Sepia --- common cuttlefish --- Sepia officinalis --- real-time PCR (Polymerase Chain Reaction) --- species identification --- food authentication --- COI (Cytochrome Oxidase I) --- Olea europaea var Sylvestris --- oleaster --- olive --- olive oil --- adulteration --- SNP --- DNA --- virgin olive oil --- quality --- volatile compounds --- sensory analysis --- chemometrics --- anti food fraud --- Curcuma longa --- DNA markers --- SYBR-GREEN real-time PCR --- Zea mays --- pasta --- Triticum aestivum --- Triticum durum --- genetic traceability --- digital PCR --- semolina --- species --- truffle --- Tuber spp. --- species differentiation --- near-infrared spectroscopy --- red deer --- roe deer --- water deer --- multiplex PCR --- capillary electrophoresis --- perilla --- sesame --- geographic origin --- metabolomics --- multivariate analysis --- metabolite profiling --- quantification --- chicken --- guinea fowl --- pheasant --- quail --- turkey --- authentication --- authenticity --- chemometric --- fish --- origin --- meat --- milk --- spectroscopy --- 1H-NMR --- GC-MS --- HPLC-UV/VIS --- protein hydrolysate --- free amino acid contents --- ProHydrAdd --- monofloral honey --- direct analysis in real time (DART) --- high resolution mass spectrometry (HRMS) --- geographical origin --- Ginkgo biloba --- plant infusions --- real-time polymerase chain reaction --- DNA extraction --- opium poppy --- seed --- pollen grains --- bakery product --- oil --- PCR --- Salmo salar L. --- fatty acids --- mislabeling --- machine learning --- n/a --- COIBar-RFLP (cytochrome oxidase I barcode-restriction fragment length polymorphism)
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