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Studies focusing on the perinatal period face unique challenges, yet research in this area is extremely important, as this period of life is highly delicate and adverse events might have a long-lasting impact. With the advent of powerful high-resolution and high-throughput analytical methods, researchers have started to successfully develop and implement novel approaches in this area. New insights have great potential to be translated into novel diagnostic tools, as well as alternative preventive and treatment approaches. This book collects a series of timely review and original research articles focusing on metabolomic, oxidative, and nitrosative stress in the perinatal period.We would like to thank all involved authors for their high-quality contributions and their commitment to the publication of this work and hope that this book will be a useful resource for students, scientists, and doctors working in this specific area of application.

glutathione --- glutamate --- oxidative stress --- hypoxia ischemia --- endotoxin --- magnetic resonance spectroscopy --- N-acetylcysteine --- vitamin D --- neonatal HIE --- MRS --- preterm birth --- sex differences --- male disadvantage --- female advantage --- bronchopulmonary dysplasia --- retinopathy of prematurity --- necrotizing enterocolitis --- intraventricular hemorrhage --- periventricular leukomalacia --- mortality --- transposition of the great arteries --- balloon atrial septostomy --- hypoxemia --- metabolomics --- newborn --- liquid chromatography-mass spectrometry (LC-MS) --- allopurinol --- hypothermia --- hypoxic-ischemic encephalopathy --- oxidative damage --- donor milk --- treatment --- Holder pasteurization --- breastmilk --- preterm --- antioxidant capacity --- asphyxia neonatorum --- non-invasive diagnostics --- saliva --- neonatal hypoxia–ischemia --- kynurenic acid (KYNA) --- neuroprotection --- hyperoxia --- prematurity --- n/a --- neonatal hypoxia-ischemia

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Studies focusing on the perinatal period face unique challenges, yet research in this area is extremely important, as this period of life is highly delicate and adverse events might have a long-lasting impact. With the advent of powerful high-resolution and high-throughput analytical methods, researchers have started to successfully develop and implement novel approaches in this area. New insights have great potential to be translated into novel diagnostic tools, as well as alternative preventive and treatment approaches. This book collects a series of timely review and original research articles focusing on metabolomic, oxidative, and nitrosative stress in the perinatal period.We would like to thank all involved authors for their high-quality contributions and their commitment to the publication of this work and hope that this book will be a useful resource for students, scientists, and doctors working in this specific area of application.

Medicine --- glutathione --- glutamate --- oxidative stress --- hypoxia ischemia --- endotoxin --- magnetic resonance spectroscopy --- N-acetylcysteine --- vitamin D --- neonatal HIE --- MRS --- preterm birth --- sex differences --- male disadvantage --- female advantage --- bronchopulmonary dysplasia --- retinopathy of prematurity --- necrotizing enterocolitis --- intraventricular hemorrhage --- periventricular leukomalacia --- mortality --- transposition of the great arteries --- balloon atrial septostomy --- hypoxemia --- metabolomics --- newborn --- liquid chromatography-mass spectrometry (LC-MS) --- allopurinol --- hypothermia --- hypoxic-ischemic encephalopathy --- oxidative damage --- donor milk --- treatment --- Holder pasteurization --- breastmilk --- preterm --- antioxidant capacity --- asphyxia neonatorum --- non-invasive diagnostics --- saliva --- neonatal hypoxia-ischemia --- kynurenic acid (KYNA) --- neuroprotection --- hyperoxia --- prematurity --- glutathione --- glutamate --- oxidative stress --- hypoxia ischemia --- endotoxin --- magnetic resonance spectroscopy --- N-acetylcysteine --- vitamin D --- neonatal HIE --- MRS --- preterm birth --- sex differences --- male disadvantage --- female advantage --- bronchopulmonary dysplasia --- retinopathy of prematurity --- necrotizing enterocolitis --- intraventricular hemorrhage --- periventricular leukomalacia --- mortality --- transposition of the great arteries --- balloon atrial septostomy --- hypoxemia --- metabolomics --- newborn --- liquid chromatography-mass spectrometry (LC-MS) --- allopurinol --- hypothermia --- hypoxic-ischemic encephalopathy --- oxidative damage --- donor milk --- treatment --- Holder pasteurization --- breastmilk --- preterm --- antioxidant capacity --- asphyxia neonatorum --- non-invasive diagnostics --- saliva --- neonatal hypoxia-ischemia --- kynurenic acid (KYNA) --- neuroprotection --- hyperoxia --- prematurity

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Human milk is uniquely tailored to meet infants’ specific nutritional requirements. However, it is more than just “milk”. This dynamic and bioactive fluid allows mother–infant signalling over lactation, guiding the infant in the developmental and physiological processes. It exerts protection and life-long biological effects, playing a crucial role in promoting healthy growth and optimal cognitive development. The latest scientific advances have provided insight into different components of human milk and their dynamic changes over time. However, the complexity of human milk composition and the synergistic mechanisms responsible for its beneficial health effects have not yet been unravelled. Filling this knowledge gap will shed light on the biology of the developing infant and will contribute to the optimization of infant feeding, particularly that of the most vulnerable infants. Greater understanding of human milk will also help in elucidating the best strategies for its storage and handling. The increasing knowledge on human milk’s bioactive compounds together with the rapidly-advancing technological achievements will greatly enhance their use as prophylactic or therapeutic agents. The current Special Issue aims to welcome original works and literature reviews further exploring the complexity of human milk composition, the mechanisms underlying the beneficial effects associated with breastfeeding, and the factors and determinants involved in lactation, including its promotion and support.

high pressure processing --- n/a --- lipids --- supplementation --- protective factors --- infant --- carbohydrate --- mothers --- antioxidant capacity --- protein --- fat --- cytokines --- bioactive factors --- late preterm --- zinc --- infants --- docosahexaenoic acid (DHA) --- pregnancy --- eicosapentaenoic acid (EPA) --- Lipidomics --- magnesium --- omega-3 fatty acids --- vitamin D deficiency --- flow injection analysis --- human milk benefits --- multiple source method --- 3?-sialyllactose (3?SL) --- milk banking --- milk group --- pasteurization --- video instruction --- Milk Fat Globule Membrane --- bile salt stimulated lipase --- breastfeeding difficulties --- breastfeeding support --- prematurity --- carotenoids --- hormones --- phosphocholine --- amino acids --- targeted metabolomics --- high-performance liquid chromatography (HPLC) --- choline --- selenium --- ?-linolenic acid --- arachidonic acid (ARA) --- docosahexaenoic acid --- human milk fortification --- protease inhibitors --- celiac disease --- copper --- term --- adipokines --- iodine --- mammary gland --- nutritional status --- food frequency questionnaire --- neonate --- early breastfeeding cessation --- prospective study --- breastfeeding --- mothers’ own milk --- disialyllacto-N-tetraose (DSLNT) --- country --- lactating women --- undernourishment --- proteases --- preterm --- expressing --- dietary assessment --- retinol --- body composition --- duration of lactation --- passive immunization --- 2?-fucosyllactose (2?FL) --- phosphorus --- clinical trial --- growth factors --- infant formula --- digestive tract --- human milk oligosaccharides (HMO) --- sodium --- nutrition --- eicosapentaenoic acid --- lipid metabolites --- lactation --- nervonic acid --- ?-tocopherol --- macronutrients --- glycoprotein --- term infant --- term infants --- maternal diet --- promotion of breastfeeding --- potassium --- antioxidants --- maternal immunoglobulins --- Human Milk --- human milk --- Phospholipids --- flu vaccine --- lactational stage --- lactose --- storage --- dietary intake --- Preterm infant --- immune-active proteins --- colostrum --- human milk fat --- inadequate intake --- milk therapy --- endogenous peptide --- calcium --- fatty acids --- breast milk --- pumping --- secretor --- LC-MS --- n-9 fatty acid --- Lewis --- donor human milk --- antenatal --- online --- iron --- growth --- donor milk --- mothers' own milk